Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics...

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© OECD/IEA 2016 Annual Renewables Questionnaire Overview IEA Energy Statistics Training Week IEA, Paris, 29 February – 4 March 2016 DaeYong Kwon & Nikos Kordevas Annual Renewables Statistics Energy Data Center

Transcript of Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics...

Page 1: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

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Annual Renewables Questionnaire Overview IEA Energy Statistics Training Week IEA Paris 29 February ndash 4 March 2016

DaeYong Kwon amp Nikos Kordevas Annual Renewables Statistics

Energy Data Center

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Renewables energy in the world

Renewables energy sources

Data reporting and checking

Data collection challenges

Uses of the data

OVERVIEW

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RENEWABLES ENERGY IN THE WORLD

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TPES (Electricity trades excluded)

Renewables

13555 Mtoe 1829 Mtoe

1 Other includes electricity from energy sources not defined above such as

non-renewable wastes peat and chemical heat 2 Other renewables includes geothermal wind solar and ocean energy

Coal 305

Oil 273

Natural Gas

226

Othersup1 04

Nuclear 50

Hydro 25

Biofuels and

waste 104

Other renewablessup2

13

Renewables 135

Hydro 178

Wind 30

Solar Tide 22

Geothermal 36

Liquid biofuels 37

Renewable municipal

waste 09

Solid biofuels charcoal 671

Biogases 17

Biofuels and waste

734

RENEWABLE FUELS IN THE WORLD 2013

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1 Other includes electricity from energy sources not defined above such as non-renewable wastes peat and chemical heat 2 Other renewables includes geothermal wind solar tide

Note Totals in graphs might not add up due to rounding

FUEL SHARES IN WORLD

ELECTRICITY PRODUCTION IN 2013

0

5

10

15

20

25

0

2000

4000

6000

8000

10000

TW

h

Coal Oil Natural gas

Nuclear Renewables Othersup1

Renewables share

217

5130T

Wh

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RENEWABLES ENERGY SOURCES

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Renewables and Waste

Non-combustible

electricity-only

Non-combustible

electricity

and heat

Combustible fuels

with stock changes

Wind

Solar

photovoltaic

Tide Wave

Ocean

Hydro

Solar thermal

Geothermal

Solid Biofuels

Municipal

Solid Wastes

Industrial

Wastes

Biogas

Liquid biofuels

CLASSIFICATION

Renewable

Non-

Renewable

Non-

Renewable

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Electricity

Production

Tide Wave

Ocean

FIRST PRACTICAL POINT OF MEASUREMENT

CLASSIFICATION

Hydro

Solar

photovoltaic

Wind

Energy

Capture

NON-COMBUSTIBLE RENEWABLE ENERGY SOURCES (13)

PRIMARY ENERGY FORM = ELECTRICITY

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OTHER NON-COMBUSTIBLE RENEWABLE ENERGY SOURCES (23)

PRIMARY ENERGY FORM = HEAT

Energy

Transformation

Solar thermal

Geothermal Energy Capture

Imports

Exports

Direct Use

CLASSIFICATION

Electricity Production

Heat Production

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Imports

Exports

Charcoal

Biogases

Municipal

Wastes

Industrial

Wastes

Stock Draw

Stock Build

Collection Production

Energy

Transformation

Direct Use

Liquid Biofuels

Blended with

conventional

energy forms

Heat Production

Electricity Production

CLASSIFICATION

COMBUSTIBLE RENEWABLE AND WASTE FUELS (33)

Primary Solid

Biofuels

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DATA REPORTING AND CHECKING

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Table 1 Gross Electricity and Heat Production

Table 2 Supply Transformation Energy Sectors End-Use

Table 3 Technical Characteristics of Installations

Net Maximum Capacity (electricity) Solar Collectors Surface Liquid Biofuels Plants Capacity Average Net Calorific Values

Table 4 Production of Solid Biofuels and Biogases

Table 5 Imports by Country of Origin

Table 6 Exports by Country of Destination

STRUCTURE OF

ANNUAL QUESTIONNAIRE

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Country

TABLE 1 GROSS ELECTRICITY

AND HEAT PRODUCTION

Report heat sold to third parties only

Report all heat

produced

bull Hydro is broken down by plant size bull Electricity from pumped storage is

reported separately

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TABLE 2 SUPPLY TRANSFORMATION

ENERGY SECTORS AND END USE

bull 13 energy products (IRES) bull 60 flows (ISIC)

bull Supply bull Transformation Sector bull Energy Sector bull Final Energy Consumption

bull Industry Sector bull Transport Sector bull Other Sectors

bull Reporting based on NCV

Country

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TABLE 3 TECHNICAL CHARACTERISTICS

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TABLE 2

TABLE 4 PRODUCTION OF SOLID BIOFUELS

AND BIOGASES

TABLE 4

Solid

biofuels

Biogases

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Country TABLE 5 Imports by Country of Origin TABLE 6 Exports by Country of Destination

Country of Origin Country of Destination

TABLE 5 IMPORTS

TABLE 6 EXPORTS

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Table 2

Supply Transformation and Energy Sectors

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Table 2

Supply Transformation

Energy Sectors and Energy end use

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Electricity and

Heat

questionnaire

Table 1

Electricity and

Heat

Questionnaire

Table 1

Table 4

Production of Solid Biofuels

and Biogases

Oil

questionnaire

Table 1

Oil

Questionnaire

Table 1

Table 1

Gross

Electricity

and Heat

Production

Gross

Electricity

and Heat

Production

Electricity

production

Heat production

Electricity and

Heat

questionnaire

Table 7a

Electricity and

Heat

Questionnaire

Table 7

Table 4

Technical

Characteristics

of the

Installations at

the end of the

year

Technical

Characteristics

of the

Installations at

the end of the

Year

Capacity

Liquid biofuels

Natural Gas

questionnaire

Table 1

Natural Gas

questionnaire

Table 1 Coal

questionnaire

Table 1

Coal

Questionnaire

Table 1

Biogases

Renewables as

binding agents

Table 1

Table 3

Table 5

Imports

Table 6

Exports

INTERRELATIONSHIP OF

QUESTIONNAIRES AND TABLES

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Arithmetical checks

Integers negative numbers sums

Inconsistency between the questionnairestables

Statistical checks

Percentage differences with prior year

Statistical differences (Supply - Consumption)

Breaks in series

Physical checks

Calorific values

Transformation efficiencies (Output Input)

Utilization rates (Production Capacity)

DATA QUALITY CHECKS

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DATA COLLECTION CHALLENGES

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DATA COLLECTION CHALLENGES

Boundaries and definitions

Inclusion of primary product

Eg liquid biofuels and biogases

Active vs Passive energy

Eg passive heating building

Energy vs Non-energy application

Eg natural hot source spa

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DATA COLLECTION CHALLENGES

Scattered productionconsumption data

Not all renewable and waste energies flow through conventional systems

Eg Individual consumption of firewood

Multitude of individual small installations

Eg Stand alone PV

Lack of standardized estimation methodology

Alternative data sources

Sales figures used for capacity

Using average energy efficiencies

Assumptions on consumption requirements (householdshellip)

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USES OF THE DATA

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Renewable Information book

Electronic data files

Energy balances

CO2 emissions

Data support for other IEA divisionsother organizations

Country reviews

PUBLICATIONS

copy OECDIEA 2016

Data used by governments worldwide for Assessing security of supply

Compare the performance of different countries

Assessing the environmental impacts of policiestechnologies Eg Measuring the evolution of efficiencies

To identify area where further effort is needed

In order to make sound policy and business decisions

And also by Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

OUTSIDE OF IEA

Data widely used by

Governments

Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

And for

Assessing security of supply

Comparing the performance of different countries

Assessing the environmental impacts of policiestechnologies

Making sound policy and business decisions

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Exercise Preparation

1 Production of electricity and heat

2 Transformation

3 Transformation vs Direct use

4 biofuel Energy vs Non-Energy

5 Liquid biofuels

6 Production vs Capacity

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Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

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Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

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Transformation

Table 2 Supply Transformation Energy Sectors and End Use

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Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

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Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

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Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

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biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

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Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

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Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

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THANK YOU

RenewAQieaorg WEDieaorg

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GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

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SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

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Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

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Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

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Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

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Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

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Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

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Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

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Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 2: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

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Renewables energy in the world

Renewables energy sources

Data reporting and checking

Data collection challenges

Uses of the data

OVERVIEW

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RENEWABLES ENERGY IN THE WORLD

copy OECDIEA 2016

TPES (Electricity trades excluded)

Renewables

13555 Mtoe 1829 Mtoe

1 Other includes electricity from energy sources not defined above such as

non-renewable wastes peat and chemical heat 2 Other renewables includes geothermal wind solar and ocean energy

Coal 305

Oil 273

Natural Gas

226

Othersup1 04

Nuclear 50

Hydro 25

Biofuels and

waste 104

Other renewablessup2

13

Renewables 135

Hydro 178

Wind 30

Solar Tide 22

Geothermal 36

Liquid biofuels 37

Renewable municipal

waste 09

Solid biofuels charcoal 671

Biogases 17

Biofuels and waste

734

RENEWABLE FUELS IN THE WORLD 2013

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1 Other includes electricity from energy sources not defined above such as non-renewable wastes peat and chemical heat 2 Other renewables includes geothermal wind solar tide

Note Totals in graphs might not add up due to rounding

FUEL SHARES IN WORLD

ELECTRICITY PRODUCTION IN 2013

0

5

10

15

20

25

0

2000

4000

6000

8000

10000

TW

h

Coal Oil Natural gas

Nuclear Renewables Othersup1

Renewables share

217

5130T

Wh

copy OECDIEA 2016

RENEWABLES ENERGY SOURCES

copy OECDIEA 2016

Renewables and Waste

Non-combustible

electricity-only

Non-combustible

electricity

and heat

Combustible fuels

with stock changes

Wind

Solar

photovoltaic

Tide Wave

Ocean

Hydro

Solar thermal

Geothermal

Solid Biofuels

Municipal

Solid Wastes

Industrial

Wastes

Biogas

Liquid biofuels

CLASSIFICATION

Renewable

Non-

Renewable

Non-

Renewable

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Electricity

Production

Tide Wave

Ocean

FIRST PRACTICAL POINT OF MEASUREMENT

CLASSIFICATION

Hydro

Solar

photovoltaic

Wind

Energy

Capture

NON-COMBUSTIBLE RENEWABLE ENERGY SOURCES (13)

PRIMARY ENERGY FORM = ELECTRICITY

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OTHER NON-COMBUSTIBLE RENEWABLE ENERGY SOURCES (23)

PRIMARY ENERGY FORM = HEAT

Energy

Transformation

Solar thermal

Geothermal Energy Capture

Imports

Exports

Direct Use

CLASSIFICATION

Electricity Production

Heat Production

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Imports

Exports

Charcoal

Biogases

Municipal

Wastes

Industrial

Wastes

Stock Draw

Stock Build

Collection Production

Energy

Transformation

Direct Use

Liquid Biofuels

Blended with

conventional

energy forms

Heat Production

Electricity Production

CLASSIFICATION

COMBUSTIBLE RENEWABLE AND WASTE FUELS (33)

Primary Solid

Biofuels

copy OECDIEA 2016

DATA REPORTING AND CHECKING

copy OECDIEA 2016

Table 1 Gross Electricity and Heat Production

Table 2 Supply Transformation Energy Sectors End-Use

Table 3 Technical Characteristics of Installations

Net Maximum Capacity (electricity) Solar Collectors Surface Liquid Biofuels Plants Capacity Average Net Calorific Values

Table 4 Production of Solid Biofuels and Biogases

Table 5 Imports by Country of Origin

Table 6 Exports by Country of Destination

STRUCTURE OF

ANNUAL QUESTIONNAIRE

copy OECDIEA 2016

Country

TABLE 1 GROSS ELECTRICITY

AND HEAT PRODUCTION

Report heat sold to third parties only

Report all heat

produced

bull Hydro is broken down by plant size bull Electricity from pumped storage is

reported separately

copy OECDIEA 2016

TABLE 2 SUPPLY TRANSFORMATION

ENERGY SECTORS AND END USE

bull 13 energy products (IRES) bull 60 flows (ISIC)

bull Supply bull Transformation Sector bull Energy Sector bull Final Energy Consumption

bull Industry Sector bull Transport Sector bull Other Sectors

bull Reporting based on NCV

Country

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TABLE 3 TECHNICAL CHARACTERISTICS

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TABLE 2

TABLE 4 PRODUCTION OF SOLID BIOFUELS

AND BIOGASES

TABLE 4

Solid

biofuels

Biogases

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Country TABLE 5 Imports by Country of Origin TABLE 6 Exports by Country of Destination

Country of Origin Country of Destination

TABLE 5 IMPORTS

TABLE 6 EXPORTS

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Table 2

Supply Transformation and Energy Sectors

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Table 2

Supply Transformation

Energy Sectors and Energy end use

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Electricity and

Heat

questionnaire

Table 1

Electricity and

Heat

Questionnaire

Table 1

Table 4

Production of Solid Biofuels

and Biogases

Oil

questionnaire

Table 1

Oil

Questionnaire

Table 1

Table 1

Gross

Electricity

and Heat

Production

Gross

Electricity

and Heat

Production

Electricity

production

Heat production

Electricity and

Heat

questionnaire

Table 7a

Electricity and

Heat

Questionnaire

Table 7

Table 4

Technical

Characteristics

of the

Installations at

the end of the

year

Technical

Characteristics

of the

Installations at

the end of the

Year

Capacity

Liquid biofuels

Natural Gas

questionnaire

Table 1

Natural Gas

questionnaire

Table 1 Coal

questionnaire

Table 1

Coal

Questionnaire

Table 1

Biogases

Renewables as

binding agents

Table 1

Table 3

Table 5

Imports

Table 6

Exports

INTERRELATIONSHIP OF

QUESTIONNAIRES AND TABLES

copy OECDIEA 2016

Arithmetical checks

Integers negative numbers sums

Inconsistency between the questionnairestables

Statistical checks

Percentage differences with prior year

Statistical differences (Supply - Consumption)

Breaks in series

Physical checks

Calorific values

Transformation efficiencies (Output Input)

Utilization rates (Production Capacity)

DATA QUALITY CHECKS

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

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DATA COLLECTION CHALLENGES

Boundaries and definitions

Inclusion of primary product

Eg liquid biofuels and biogases

Active vs Passive energy

Eg passive heating building

Energy vs Non-energy application

Eg natural hot source spa

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Scattered productionconsumption data

Not all renewable and waste energies flow through conventional systems

Eg Individual consumption of firewood

Multitude of individual small installations

Eg Stand alone PV

Lack of standardized estimation methodology

Alternative data sources

Sales figures used for capacity

Using average energy efficiencies

Assumptions on consumption requirements (householdshellip)

copy OECDIEA 2016

USES OF THE DATA

copy OECDIEA 2016

Renewable Information book

Electronic data files

Energy balances

CO2 emissions

Data support for other IEA divisionsother organizations

Country reviews

PUBLICATIONS

copy OECDIEA 2016

Data used by governments worldwide for Assessing security of supply

Compare the performance of different countries

Assessing the environmental impacts of policiestechnologies Eg Measuring the evolution of efficiencies

To identify area where further effort is needed

In order to make sound policy and business decisions

And also by Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

OUTSIDE OF IEA

Data widely used by

Governments

Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

And for

Assessing security of supply

Comparing the performance of different countries

Assessing the environmental impacts of policiestechnologies

Making sound policy and business decisions

copy OECDIEA 2016

Exercise Preparation

1 Production of electricity and heat

2 Transformation

3 Transformation vs Direct use

4 biofuel Energy vs Non-Energy

5 Liquid biofuels

6 Production vs Capacity

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

copy OECDIEA 2016

Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

copy OECDIEA 2016

biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

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Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 3: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

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RENEWABLES ENERGY IN THE WORLD

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TPES (Electricity trades excluded)

Renewables

13555 Mtoe 1829 Mtoe

1 Other includes electricity from energy sources not defined above such as

non-renewable wastes peat and chemical heat 2 Other renewables includes geothermal wind solar and ocean energy

Coal 305

Oil 273

Natural Gas

226

Othersup1 04

Nuclear 50

Hydro 25

Biofuels and

waste 104

Other renewablessup2

13

Renewables 135

Hydro 178

Wind 30

Solar Tide 22

Geothermal 36

Liquid biofuels 37

Renewable municipal

waste 09

Solid biofuels charcoal 671

Biogases 17

Biofuels and waste

734

RENEWABLE FUELS IN THE WORLD 2013

copy OECDIEA 2016

1 Other includes electricity from energy sources not defined above such as non-renewable wastes peat and chemical heat 2 Other renewables includes geothermal wind solar tide

Note Totals in graphs might not add up due to rounding

FUEL SHARES IN WORLD

ELECTRICITY PRODUCTION IN 2013

0

5

10

15

20

25

0

2000

4000

6000

8000

10000

TW

h

Coal Oil Natural gas

Nuclear Renewables Othersup1

Renewables share

217

5130T

Wh

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RENEWABLES ENERGY SOURCES

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Renewables and Waste

Non-combustible

electricity-only

Non-combustible

electricity

and heat

Combustible fuels

with stock changes

Wind

Solar

photovoltaic

Tide Wave

Ocean

Hydro

Solar thermal

Geothermal

Solid Biofuels

Municipal

Solid Wastes

Industrial

Wastes

Biogas

Liquid biofuels

CLASSIFICATION

Renewable

Non-

Renewable

Non-

Renewable

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Electricity

Production

Tide Wave

Ocean

FIRST PRACTICAL POINT OF MEASUREMENT

CLASSIFICATION

Hydro

Solar

photovoltaic

Wind

Energy

Capture

NON-COMBUSTIBLE RENEWABLE ENERGY SOURCES (13)

PRIMARY ENERGY FORM = ELECTRICITY

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OTHER NON-COMBUSTIBLE RENEWABLE ENERGY SOURCES (23)

PRIMARY ENERGY FORM = HEAT

Energy

Transformation

Solar thermal

Geothermal Energy Capture

Imports

Exports

Direct Use

CLASSIFICATION

Electricity Production

Heat Production

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Imports

Exports

Charcoal

Biogases

Municipal

Wastes

Industrial

Wastes

Stock Draw

Stock Build

Collection Production

Energy

Transformation

Direct Use

Liquid Biofuels

Blended with

conventional

energy forms

Heat Production

Electricity Production

CLASSIFICATION

COMBUSTIBLE RENEWABLE AND WASTE FUELS (33)

Primary Solid

Biofuels

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DATA REPORTING AND CHECKING

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Table 1 Gross Electricity and Heat Production

Table 2 Supply Transformation Energy Sectors End-Use

Table 3 Technical Characteristics of Installations

Net Maximum Capacity (electricity) Solar Collectors Surface Liquid Biofuels Plants Capacity Average Net Calorific Values

Table 4 Production of Solid Biofuels and Biogases

Table 5 Imports by Country of Origin

Table 6 Exports by Country of Destination

STRUCTURE OF

ANNUAL QUESTIONNAIRE

copy OECDIEA 2016

Country

TABLE 1 GROSS ELECTRICITY

AND HEAT PRODUCTION

Report heat sold to third parties only

Report all heat

produced

bull Hydro is broken down by plant size bull Electricity from pumped storage is

reported separately

copy OECDIEA 2016

TABLE 2 SUPPLY TRANSFORMATION

ENERGY SECTORS AND END USE

bull 13 energy products (IRES) bull 60 flows (ISIC)

bull Supply bull Transformation Sector bull Energy Sector bull Final Energy Consumption

bull Industry Sector bull Transport Sector bull Other Sectors

bull Reporting based on NCV

Country

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TABLE 3 TECHNICAL CHARACTERISTICS

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TABLE 2

TABLE 4 PRODUCTION OF SOLID BIOFUELS

AND BIOGASES

TABLE 4

Solid

biofuels

Biogases

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Country TABLE 5 Imports by Country of Origin TABLE 6 Exports by Country of Destination

Country of Origin Country of Destination

TABLE 5 IMPORTS

TABLE 6 EXPORTS

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Table 2

Supply Transformation and Energy Sectors

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Table 2

Supply Transformation

Energy Sectors and Energy end use

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Electricity and

Heat

questionnaire

Table 1

Electricity and

Heat

Questionnaire

Table 1

Table 4

Production of Solid Biofuels

and Biogases

Oil

questionnaire

Table 1

Oil

Questionnaire

Table 1

Table 1

Gross

Electricity

and Heat

Production

Gross

Electricity

and Heat

Production

Electricity

production

Heat production

Electricity and

Heat

questionnaire

Table 7a

Electricity and

Heat

Questionnaire

Table 7

Table 4

Technical

Characteristics

of the

Installations at

the end of the

year

Technical

Characteristics

of the

Installations at

the end of the

Year

Capacity

Liquid biofuels

Natural Gas

questionnaire

Table 1

Natural Gas

questionnaire

Table 1 Coal

questionnaire

Table 1

Coal

Questionnaire

Table 1

Biogases

Renewables as

binding agents

Table 1

Table 3

Table 5

Imports

Table 6

Exports

INTERRELATIONSHIP OF

QUESTIONNAIRES AND TABLES

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Arithmetical checks

Integers negative numbers sums

Inconsistency between the questionnairestables

Statistical checks

Percentage differences with prior year

Statistical differences (Supply - Consumption)

Breaks in series

Physical checks

Calorific values

Transformation efficiencies (Output Input)

Utilization rates (Production Capacity)

DATA QUALITY CHECKS

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DATA COLLECTION CHALLENGES

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DATA COLLECTION CHALLENGES

Boundaries and definitions

Inclusion of primary product

Eg liquid biofuels and biogases

Active vs Passive energy

Eg passive heating building

Energy vs Non-energy application

Eg natural hot source spa

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DATA COLLECTION CHALLENGES

Scattered productionconsumption data

Not all renewable and waste energies flow through conventional systems

Eg Individual consumption of firewood

Multitude of individual small installations

Eg Stand alone PV

Lack of standardized estimation methodology

Alternative data sources

Sales figures used for capacity

Using average energy efficiencies

Assumptions on consumption requirements (householdshellip)

copy OECDIEA 2016

USES OF THE DATA

copy OECDIEA 2016

Renewable Information book

Electronic data files

Energy balances

CO2 emissions

Data support for other IEA divisionsother organizations

Country reviews

PUBLICATIONS

copy OECDIEA 2016

Data used by governments worldwide for Assessing security of supply

Compare the performance of different countries

Assessing the environmental impacts of policiestechnologies Eg Measuring the evolution of efficiencies

To identify area where further effort is needed

In order to make sound policy and business decisions

And also by Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

OUTSIDE OF IEA

Data widely used by

Governments

Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

And for

Assessing security of supply

Comparing the performance of different countries

Assessing the environmental impacts of policiestechnologies

Making sound policy and business decisions

copy OECDIEA 2016

Exercise Preparation

1 Production of electricity and heat

2 Transformation

3 Transformation vs Direct use

4 biofuel Energy vs Non-Energy

5 Liquid biofuels

6 Production vs Capacity

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

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Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

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Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

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Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

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biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

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Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

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Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

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Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 4: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

TPES (Electricity trades excluded)

Renewables

13555 Mtoe 1829 Mtoe

1 Other includes electricity from energy sources not defined above such as

non-renewable wastes peat and chemical heat 2 Other renewables includes geothermal wind solar and ocean energy

Coal 305

Oil 273

Natural Gas

226

Othersup1 04

Nuclear 50

Hydro 25

Biofuels and

waste 104

Other renewablessup2

13

Renewables 135

Hydro 178

Wind 30

Solar Tide 22

Geothermal 36

Liquid biofuels 37

Renewable municipal

waste 09

Solid biofuels charcoal 671

Biogases 17

Biofuels and waste

734

RENEWABLE FUELS IN THE WORLD 2013

copy OECDIEA 2016

1 Other includes electricity from energy sources not defined above such as non-renewable wastes peat and chemical heat 2 Other renewables includes geothermal wind solar tide

Note Totals in graphs might not add up due to rounding

FUEL SHARES IN WORLD

ELECTRICITY PRODUCTION IN 2013

0

5

10

15

20

25

0

2000

4000

6000

8000

10000

TW

h

Coal Oil Natural gas

Nuclear Renewables Othersup1

Renewables share

217

5130T

Wh

copy OECDIEA 2016

RENEWABLES ENERGY SOURCES

copy OECDIEA 2016

Renewables and Waste

Non-combustible

electricity-only

Non-combustible

electricity

and heat

Combustible fuels

with stock changes

Wind

Solar

photovoltaic

Tide Wave

Ocean

Hydro

Solar thermal

Geothermal

Solid Biofuels

Municipal

Solid Wastes

Industrial

Wastes

Biogas

Liquid biofuels

CLASSIFICATION

Renewable

Non-

Renewable

Non-

Renewable

copy OECDIEA 2016

Electricity

Production

Tide Wave

Ocean

FIRST PRACTICAL POINT OF MEASUREMENT

CLASSIFICATION

Hydro

Solar

photovoltaic

Wind

Energy

Capture

NON-COMBUSTIBLE RENEWABLE ENERGY SOURCES (13)

PRIMARY ENERGY FORM = ELECTRICITY

copy OECDIEA 2016

OTHER NON-COMBUSTIBLE RENEWABLE ENERGY SOURCES (23)

PRIMARY ENERGY FORM = HEAT

Energy

Transformation

Solar thermal

Geothermal Energy Capture

Imports

Exports

Direct Use

CLASSIFICATION

Electricity Production

Heat Production

copy OECDIEA 2016

Imports

Exports

Charcoal

Biogases

Municipal

Wastes

Industrial

Wastes

Stock Draw

Stock Build

Collection Production

Energy

Transformation

Direct Use

Liquid Biofuels

Blended with

conventional

energy forms

Heat Production

Electricity Production

CLASSIFICATION

COMBUSTIBLE RENEWABLE AND WASTE FUELS (33)

Primary Solid

Biofuels

copy OECDIEA 2016

DATA REPORTING AND CHECKING

copy OECDIEA 2016

Table 1 Gross Electricity and Heat Production

Table 2 Supply Transformation Energy Sectors End-Use

Table 3 Technical Characteristics of Installations

Net Maximum Capacity (electricity) Solar Collectors Surface Liquid Biofuels Plants Capacity Average Net Calorific Values

Table 4 Production of Solid Biofuels and Biogases

Table 5 Imports by Country of Origin

Table 6 Exports by Country of Destination

STRUCTURE OF

ANNUAL QUESTIONNAIRE

copy OECDIEA 2016

Country

TABLE 1 GROSS ELECTRICITY

AND HEAT PRODUCTION

Report heat sold to third parties only

Report all heat

produced

bull Hydro is broken down by plant size bull Electricity from pumped storage is

reported separately

copy OECDIEA 2016

TABLE 2 SUPPLY TRANSFORMATION

ENERGY SECTORS AND END USE

bull 13 energy products (IRES) bull 60 flows (ISIC)

bull Supply bull Transformation Sector bull Energy Sector bull Final Energy Consumption

bull Industry Sector bull Transport Sector bull Other Sectors

bull Reporting based on NCV

Country

copy OECDIEA 2016

TABLE 3 TECHNICAL CHARACTERISTICS

copy OECDIEA 2016

TABLE 2

TABLE 4 PRODUCTION OF SOLID BIOFUELS

AND BIOGASES

TABLE 4

Solid

biofuels

Biogases

copy OECDIEA 2016

Country TABLE 5 Imports by Country of Origin TABLE 6 Exports by Country of Destination

Country of Origin Country of Destination

TABLE 5 IMPORTS

TABLE 6 EXPORTS

copy OECDIEA 2016

Table 2

Supply Transformation and Energy Sectors

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Table 2

Supply Transformation

Energy Sectors and Energy end use

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Electricity and

Heat

questionnaire

Table 1

Electricity and

Heat

Questionnaire

Table 1

Table 4

Production of Solid Biofuels

and Biogases

Oil

questionnaire

Table 1

Oil

Questionnaire

Table 1

Table 1

Gross

Electricity

and Heat

Production

Gross

Electricity

and Heat

Production

Electricity

production

Heat production

Electricity and

Heat

questionnaire

Table 7a

Electricity and

Heat

Questionnaire

Table 7

Table 4

Technical

Characteristics

of the

Installations at

the end of the

year

Technical

Characteristics

of the

Installations at

the end of the

Year

Capacity

Liquid biofuels

Natural Gas

questionnaire

Table 1

Natural Gas

questionnaire

Table 1 Coal

questionnaire

Table 1

Coal

Questionnaire

Table 1

Biogases

Renewables as

binding agents

Table 1

Table 3

Table 5

Imports

Table 6

Exports

INTERRELATIONSHIP OF

QUESTIONNAIRES AND TABLES

copy OECDIEA 2016

Arithmetical checks

Integers negative numbers sums

Inconsistency between the questionnairestables

Statistical checks

Percentage differences with prior year

Statistical differences (Supply - Consumption)

Breaks in series

Physical checks

Calorific values

Transformation efficiencies (Output Input)

Utilization rates (Production Capacity)

DATA QUALITY CHECKS

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Boundaries and definitions

Inclusion of primary product

Eg liquid biofuels and biogases

Active vs Passive energy

Eg passive heating building

Energy vs Non-energy application

Eg natural hot source spa

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Scattered productionconsumption data

Not all renewable and waste energies flow through conventional systems

Eg Individual consumption of firewood

Multitude of individual small installations

Eg Stand alone PV

Lack of standardized estimation methodology

Alternative data sources

Sales figures used for capacity

Using average energy efficiencies

Assumptions on consumption requirements (householdshellip)

copy OECDIEA 2016

USES OF THE DATA

copy OECDIEA 2016

Renewable Information book

Electronic data files

Energy balances

CO2 emissions

Data support for other IEA divisionsother organizations

Country reviews

PUBLICATIONS

copy OECDIEA 2016

Data used by governments worldwide for Assessing security of supply

Compare the performance of different countries

Assessing the environmental impacts of policiestechnologies Eg Measuring the evolution of efficiencies

To identify area where further effort is needed

In order to make sound policy and business decisions

And also by Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

OUTSIDE OF IEA

Data widely used by

Governments

Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

And for

Assessing security of supply

Comparing the performance of different countries

Assessing the environmental impacts of policiestechnologies

Making sound policy and business decisions

copy OECDIEA 2016

Exercise Preparation

1 Production of electricity and heat

2 Transformation

3 Transformation vs Direct use

4 biofuel Energy vs Non-Energy

5 Liquid biofuels

6 Production vs Capacity

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

copy OECDIEA 2016

Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

copy OECDIEA 2016

biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 5: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

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1 Other includes electricity from energy sources not defined above such as non-renewable wastes peat and chemical heat 2 Other renewables includes geothermal wind solar tide

Note Totals in graphs might not add up due to rounding

FUEL SHARES IN WORLD

ELECTRICITY PRODUCTION IN 2013

0

5

10

15

20

25

0

2000

4000

6000

8000

10000

TW

h

Coal Oil Natural gas

Nuclear Renewables Othersup1

Renewables share

217

5130T

Wh

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RENEWABLES ENERGY SOURCES

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Renewables and Waste

Non-combustible

electricity-only

Non-combustible

electricity

and heat

Combustible fuels

with stock changes

Wind

Solar

photovoltaic

Tide Wave

Ocean

Hydro

Solar thermal

Geothermal

Solid Biofuels

Municipal

Solid Wastes

Industrial

Wastes

Biogas

Liquid biofuels

CLASSIFICATION

Renewable

Non-

Renewable

Non-

Renewable

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Electricity

Production

Tide Wave

Ocean

FIRST PRACTICAL POINT OF MEASUREMENT

CLASSIFICATION

Hydro

Solar

photovoltaic

Wind

Energy

Capture

NON-COMBUSTIBLE RENEWABLE ENERGY SOURCES (13)

PRIMARY ENERGY FORM = ELECTRICITY

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OTHER NON-COMBUSTIBLE RENEWABLE ENERGY SOURCES (23)

PRIMARY ENERGY FORM = HEAT

Energy

Transformation

Solar thermal

Geothermal Energy Capture

Imports

Exports

Direct Use

CLASSIFICATION

Electricity Production

Heat Production

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Imports

Exports

Charcoal

Biogases

Municipal

Wastes

Industrial

Wastes

Stock Draw

Stock Build

Collection Production

Energy

Transformation

Direct Use

Liquid Biofuels

Blended with

conventional

energy forms

Heat Production

Electricity Production

CLASSIFICATION

COMBUSTIBLE RENEWABLE AND WASTE FUELS (33)

Primary Solid

Biofuels

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DATA REPORTING AND CHECKING

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Table 1 Gross Electricity and Heat Production

Table 2 Supply Transformation Energy Sectors End-Use

Table 3 Technical Characteristics of Installations

Net Maximum Capacity (electricity) Solar Collectors Surface Liquid Biofuels Plants Capacity Average Net Calorific Values

Table 4 Production of Solid Biofuels and Biogases

Table 5 Imports by Country of Origin

Table 6 Exports by Country of Destination

STRUCTURE OF

ANNUAL QUESTIONNAIRE

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Country

TABLE 1 GROSS ELECTRICITY

AND HEAT PRODUCTION

Report heat sold to third parties only

Report all heat

produced

bull Hydro is broken down by plant size bull Electricity from pumped storage is

reported separately

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TABLE 2 SUPPLY TRANSFORMATION

ENERGY SECTORS AND END USE

bull 13 energy products (IRES) bull 60 flows (ISIC)

bull Supply bull Transformation Sector bull Energy Sector bull Final Energy Consumption

bull Industry Sector bull Transport Sector bull Other Sectors

bull Reporting based on NCV

Country

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TABLE 3 TECHNICAL CHARACTERISTICS

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TABLE 2

TABLE 4 PRODUCTION OF SOLID BIOFUELS

AND BIOGASES

TABLE 4

Solid

biofuels

Biogases

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Country TABLE 5 Imports by Country of Origin TABLE 6 Exports by Country of Destination

Country of Origin Country of Destination

TABLE 5 IMPORTS

TABLE 6 EXPORTS

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Table 2

Supply Transformation and Energy Sectors

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Table 2

Supply Transformation

Energy Sectors and Energy end use

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Electricity and

Heat

questionnaire

Table 1

Electricity and

Heat

Questionnaire

Table 1

Table 4

Production of Solid Biofuels

and Biogases

Oil

questionnaire

Table 1

Oil

Questionnaire

Table 1

Table 1

Gross

Electricity

and Heat

Production

Gross

Electricity

and Heat

Production

Electricity

production

Heat production

Electricity and

Heat

questionnaire

Table 7a

Electricity and

Heat

Questionnaire

Table 7

Table 4

Technical

Characteristics

of the

Installations at

the end of the

year

Technical

Characteristics

of the

Installations at

the end of the

Year

Capacity

Liquid biofuels

Natural Gas

questionnaire

Table 1

Natural Gas

questionnaire

Table 1 Coal

questionnaire

Table 1

Coal

Questionnaire

Table 1

Biogases

Renewables as

binding agents

Table 1

Table 3

Table 5

Imports

Table 6

Exports

INTERRELATIONSHIP OF

QUESTIONNAIRES AND TABLES

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Arithmetical checks

Integers negative numbers sums

Inconsistency between the questionnairestables

Statistical checks

Percentage differences with prior year

Statistical differences (Supply - Consumption)

Breaks in series

Physical checks

Calorific values

Transformation efficiencies (Output Input)

Utilization rates (Production Capacity)

DATA QUALITY CHECKS

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DATA COLLECTION CHALLENGES

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DATA COLLECTION CHALLENGES

Boundaries and definitions

Inclusion of primary product

Eg liquid biofuels and biogases

Active vs Passive energy

Eg passive heating building

Energy vs Non-energy application

Eg natural hot source spa

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DATA COLLECTION CHALLENGES

Scattered productionconsumption data

Not all renewable and waste energies flow through conventional systems

Eg Individual consumption of firewood

Multitude of individual small installations

Eg Stand alone PV

Lack of standardized estimation methodology

Alternative data sources

Sales figures used for capacity

Using average energy efficiencies

Assumptions on consumption requirements (householdshellip)

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USES OF THE DATA

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Renewable Information book

Electronic data files

Energy balances

CO2 emissions

Data support for other IEA divisionsother organizations

Country reviews

PUBLICATIONS

copy OECDIEA 2016

Data used by governments worldwide for Assessing security of supply

Compare the performance of different countries

Assessing the environmental impacts of policiestechnologies Eg Measuring the evolution of efficiencies

To identify area where further effort is needed

In order to make sound policy and business decisions

And also by Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

OUTSIDE OF IEA

Data widely used by

Governments

Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

And for

Assessing security of supply

Comparing the performance of different countries

Assessing the environmental impacts of policiestechnologies

Making sound policy and business decisions

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Exercise Preparation

1 Production of electricity and heat

2 Transformation

3 Transformation vs Direct use

4 biofuel Energy vs Non-Energy

5 Liquid biofuels

6 Production vs Capacity

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Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

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Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

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Transformation

Table 2 Supply Transformation Energy Sectors and End Use

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Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

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Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

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Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

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biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

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Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

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Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

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THANK YOU

RenewAQieaorg WEDieaorg

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GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

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SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

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Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

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Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

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Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

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Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

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Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

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Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

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Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 6: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

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RENEWABLES ENERGY SOURCES

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Renewables and Waste

Non-combustible

electricity-only

Non-combustible

electricity

and heat

Combustible fuels

with stock changes

Wind

Solar

photovoltaic

Tide Wave

Ocean

Hydro

Solar thermal

Geothermal

Solid Biofuels

Municipal

Solid Wastes

Industrial

Wastes

Biogas

Liquid biofuels

CLASSIFICATION

Renewable

Non-

Renewable

Non-

Renewable

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Electricity

Production

Tide Wave

Ocean

FIRST PRACTICAL POINT OF MEASUREMENT

CLASSIFICATION

Hydro

Solar

photovoltaic

Wind

Energy

Capture

NON-COMBUSTIBLE RENEWABLE ENERGY SOURCES (13)

PRIMARY ENERGY FORM = ELECTRICITY

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OTHER NON-COMBUSTIBLE RENEWABLE ENERGY SOURCES (23)

PRIMARY ENERGY FORM = HEAT

Energy

Transformation

Solar thermal

Geothermal Energy Capture

Imports

Exports

Direct Use

CLASSIFICATION

Electricity Production

Heat Production

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Imports

Exports

Charcoal

Biogases

Municipal

Wastes

Industrial

Wastes

Stock Draw

Stock Build

Collection Production

Energy

Transformation

Direct Use

Liquid Biofuels

Blended with

conventional

energy forms

Heat Production

Electricity Production

CLASSIFICATION

COMBUSTIBLE RENEWABLE AND WASTE FUELS (33)

Primary Solid

Biofuels

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DATA REPORTING AND CHECKING

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Table 1 Gross Electricity and Heat Production

Table 2 Supply Transformation Energy Sectors End-Use

Table 3 Technical Characteristics of Installations

Net Maximum Capacity (electricity) Solar Collectors Surface Liquid Biofuels Plants Capacity Average Net Calorific Values

Table 4 Production of Solid Biofuels and Biogases

Table 5 Imports by Country of Origin

Table 6 Exports by Country of Destination

STRUCTURE OF

ANNUAL QUESTIONNAIRE

copy OECDIEA 2016

Country

TABLE 1 GROSS ELECTRICITY

AND HEAT PRODUCTION

Report heat sold to third parties only

Report all heat

produced

bull Hydro is broken down by plant size bull Electricity from pumped storage is

reported separately

copy OECDIEA 2016

TABLE 2 SUPPLY TRANSFORMATION

ENERGY SECTORS AND END USE

bull 13 energy products (IRES) bull 60 flows (ISIC)

bull Supply bull Transformation Sector bull Energy Sector bull Final Energy Consumption

bull Industry Sector bull Transport Sector bull Other Sectors

bull Reporting based on NCV

Country

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TABLE 3 TECHNICAL CHARACTERISTICS

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TABLE 2

TABLE 4 PRODUCTION OF SOLID BIOFUELS

AND BIOGASES

TABLE 4

Solid

biofuels

Biogases

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Country TABLE 5 Imports by Country of Origin TABLE 6 Exports by Country of Destination

Country of Origin Country of Destination

TABLE 5 IMPORTS

TABLE 6 EXPORTS

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Table 2

Supply Transformation and Energy Sectors

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Table 2

Supply Transformation

Energy Sectors and Energy end use

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Electricity and

Heat

questionnaire

Table 1

Electricity and

Heat

Questionnaire

Table 1

Table 4

Production of Solid Biofuels

and Biogases

Oil

questionnaire

Table 1

Oil

Questionnaire

Table 1

Table 1

Gross

Electricity

and Heat

Production

Gross

Electricity

and Heat

Production

Electricity

production

Heat production

Electricity and

Heat

questionnaire

Table 7a

Electricity and

Heat

Questionnaire

Table 7

Table 4

Technical

Characteristics

of the

Installations at

the end of the

year

Technical

Characteristics

of the

Installations at

the end of the

Year

Capacity

Liquid biofuels

Natural Gas

questionnaire

Table 1

Natural Gas

questionnaire

Table 1 Coal

questionnaire

Table 1

Coal

Questionnaire

Table 1

Biogases

Renewables as

binding agents

Table 1

Table 3

Table 5

Imports

Table 6

Exports

INTERRELATIONSHIP OF

QUESTIONNAIRES AND TABLES

copy OECDIEA 2016

Arithmetical checks

Integers negative numbers sums

Inconsistency between the questionnairestables

Statistical checks

Percentage differences with prior year

Statistical differences (Supply - Consumption)

Breaks in series

Physical checks

Calorific values

Transformation efficiencies (Output Input)

Utilization rates (Production Capacity)

DATA QUALITY CHECKS

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Boundaries and definitions

Inclusion of primary product

Eg liquid biofuels and biogases

Active vs Passive energy

Eg passive heating building

Energy vs Non-energy application

Eg natural hot source spa

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Scattered productionconsumption data

Not all renewable and waste energies flow through conventional systems

Eg Individual consumption of firewood

Multitude of individual small installations

Eg Stand alone PV

Lack of standardized estimation methodology

Alternative data sources

Sales figures used for capacity

Using average energy efficiencies

Assumptions on consumption requirements (householdshellip)

copy OECDIEA 2016

USES OF THE DATA

copy OECDIEA 2016

Renewable Information book

Electronic data files

Energy balances

CO2 emissions

Data support for other IEA divisionsother organizations

Country reviews

PUBLICATIONS

copy OECDIEA 2016

Data used by governments worldwide for Assessing security of supply

Compare the performance of different countries

Assessing the environmental impacts of policiestechnologies Eg Measuring the evolution of efficiencies

To identify area where further effort is needed

In order to make sound policy and business decisions

And also by Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

OUTSIDE OF IEA

Data widely used by

Governments

Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

And for

Assessing security of supply

Comparing the performance of different countries

Assessing the environmental impacts of policiestechnologies

Making sound policy and business decisions

copy OECDIEA 2016

Exercise Preparation

1 Production of electricity and heat

2 Transformation

3 Transformation vs Direct use

4 biofuel Energy vs Non-Energy

5 Liquid biofuels

6 Production vs Capacity

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

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Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

copy OECDIEA 2016

Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

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biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 7: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

Renewables and Waste

Non-combustible

electricity-only

Non-combustible

electricity

and heat

Combustible fuels

with stock changes

Wind

Solar

photovoltaic

Tide Wave

Ocean

Hydro

Solar thermal

Geothermal

Solid Biofuels

Municipal

Solid Wastes

Industrial

Wastes

Biogas

Liquid biofuels

CLASSIFICATION

Renewable

Non-

Renewable

Non-

Renewable

copy OECDIEA 2016

Electricity

Production

Tide Wave

Ocean

FIRST PRACTICAL POINT OF MEASUREMENT

CLASSIFICATION

Hydro

Solar

photovoltaic

Wind

Energy

Capture

NON-COMBUSTIBLE RENEWABLE ENERGY SOURCES (13)

PRIMARY ENERGY FORM = ELECTRICITY

copy OECDIEA 2016

OTHER NON-COMBUSTIBLE RENEWABLE ENERGY SOURCES (23)

PRIMARY ENERGY FORM = HEAT

Energy

Transformation

Solar thermal

Geothermal Energy Capture

Imports

Exports

Direct Use

CLASSIFICATION

Electricity Production

Heat Production

copy OECDIEA 2016

Imports

Exports

Charcoal

Biogases

Municipal

Wastes

Industrial

Wastes

Stock Draw

Stock Build

Collection Production

Energy

Transformation

Direct Use

Liquid Biofuels

Blended with

conventional

energy forms

Heat Production

Electricity Production

CLASSIFICATION

COMBUSTIBLE RENEWABLE AND WASTE FUELS (33)

Primary Solid

Biofuels

copy OECDIEA 2016

DATA REPORTING AND CHECKING

copy OECDIEA 2016

Table 1 Gross Electricity and Heat Production

Table 2 Supply Transformation Energy Sectors End-Use

Table 3 Technical Characteristics of Installations

Net Maximum Capacity (electricity) Solar Collectors Surface Liquid Biofuels Plants Capacity Average Net Calorific Values

Table 4 Production of Solid Biofuels and Biogases

Table 5 Imports by Country of Origin

Table 6 Exports by Country of Destination

STRUCTURE OF

ANNUAL QUESTIONNAIRE

copy OECDIEA 2016

Country

TABLE 1 GROSS ELECTRICITY

AND HEAT PRODUCTION

Report heat sold to third parties only

Report all heat

produced

bull Hydro is broken down by plant size bull Electricity from pumped storage is

reported separately

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TABLE 2 SUPPLY TRANSFORMATION

ENERGY SECTORS AND END USE

bull 13 energy products (IRES) bull 60 flows (ISIC)

bull Supply bull Transformation Sector bull Energy Sector bull Final Energy Consumption

bull Industry Sector bull Transport Sector bull Other Sectors

bull Reporting based on NCV

Country

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TABLE 3 TECHNICAL CHARACTERISTICS

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TABLE 2

TABLE 4 PRODUCTION OF SOLID BIOFUELS

AND BIOGASES

TABLE 4

Solid

biofuels

Biogases

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Country TABLE 5 Imports by Country of Origin TABLE 6 Exports by Country of Destination

Country of Origin Country of Destination

TABLE 5 IMPORTS

TABLE 6 EXPORTS

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Table 2

Supply Transformation and Energy Sectors

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Table 2

Supply Transformation

Energy Sectors and Energy end use

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Electricity and

Heat

questionnaire

Table 1

Electricity and

Heat

Questionnaire

Table 1

Table 4

Production of Solid Biofuels

and Biogases

Oil

questionnaire

Table 1

Oil

Questionnaire

Table 1

Table 1

Gross

Electricity

and Heat

Production

Gross

Electricity

and Heat

Production

Electricity

production

Heat production

Electricity and

Heat

questionnaire

Table 7a

Electricity and

Heat

Questionnaire

Table 7

Table 4

Technical

Characteristics

of the

Installations at

the end of the

year

Technical

Characteristics

of the

Installations at

the end of the

Year

Capacity

Liquid biofuels

Natural Gas

questionnaire

Table 1

Natural Gas

questionnaire

Table 1 Coal

questionnaire

Table 1

Coal

Questionnaire

Table 1

Biogases

Renewables as

binding agents

Table 1

Table 3

Table 5

Imports

Table 6

Exports

INTERRELATIONSHIP OF

QUESTIONNAIRES AND TABLES

copy OECDIEA 2016

Arithmetical checks

Integers negative numbers sums

Inconsistency between the questionnairestables

Statistical checks

Percentage differences with prior year

Statistical differences (Supply - Consumption)

Breaks in series

Physical checks

Calorific values

Transformation efficiencies (Output Input)

Utilization rates (Production Capacity)

DATA QUALITY CHECKS

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DATA COLLECTION CHALLENGES

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DATA COLLECTION CHALLENGES

Boundaries and definitions

Inclusion of primary product

Eg liquid biofuels and biogases

Active vs Passive energy

Eg passive heating building

Energy vs Non-energy application

Eg natural hot source spa

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DATA COLLECTION CHALLENGES

Scattered productionconsumption data

Not all renewable and waste energies flow through conventional systems

Eg Individual consumption of firewood

Multitude of individual small installations

Eg Stand alone PV

Lack of standardized estimation methodology

Alternative data sources

Sales figures used for capacity

Using average energy efficiencies

Assumptions on consumption requirements (householdshellip)

copy OECDIEA 2016

USES OF THE DATA

copy OECDIEA 2016

Renewable Information book

Electronic data files

Energy balances

CO2 emissions

Data support for other IEA divisionsother organizations

Country reviews

PUBLICATIONS

copy OECDIEA 2016

Data used by governments worldwide for Assessing security of supply

Compare the performance of different countries

Assessing the environmental impacts of policiestechnologies Eg Measuring the evolution of efficiencies

To identify area where further effort is needed

In order to make sound policy and business decisions

And also by Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

OUTSIDE OF IEA

Data widely used by

Governments

Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

And for

Assessing security of supply

Comparing the performance of different countries

Assessing the environmental impacts of policiestechnologies

Making sound policy and business decisions

copy OECDIEA 2016

Exercise Preparation

1 Production of electricity and heat

2 Transformation

3 Transformation vs Direct use

4 biofuel Energy vs Non-Energy

5 Liquid biofuels

6 Production vs Capacity

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Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

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Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

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Transformation

Table 2 Supply Transformation Energy Sectors and End Use

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Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

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Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

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Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

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biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

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Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

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Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

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THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

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Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

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Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

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Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

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Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 8: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

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Electricity

Production

Tide Wave

Ocean

FIRST PRACTICAL POINT OF MEASUREMENT

CLASSIFICATION

Hydro

Solar

photovoltaic

Wind

Energy

Capture

NON-COMBUSTIBLE RENEWABLE ENERGY SOURCES (13)

PRIMARY ENERGY FORM = ELECTRICITY

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OTHER NON-COMBUSTIBLE RENEWABLE ENERGY SOURCES (23)

PRIMARY ENERGY FORM = HEAT

Energy

Transformation

Solar thermal

Geothermal Energy Capture

Imports

Exports

Direct Use

CLASSIFICATION

Electricity Production

Heat Production

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Imports

Exports

Charcoal

Biogases

Municipal

Wastes

Industrial

Wastes

Stock Draw

Stock Build

Collection Production

Energy

Transformation

Direct Use

Liquid Biofuels

Blended with

conventional

energy forms

Heat Production

Electricity Production

CLASSIFICATION

COMBUSTIBLE RENEWABLE AND WASTE FUELS (33)

Primary Solid

Biofuels

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DATA REPORTING AND CHECKING

copy OECDIEA 2016

Table 1 Gross Electricity and Heat Production

Table 2 Supply Transformation Energy Sectors End-Use

Table 3 Technical Characteristics of Installations

Net Maximum Capacity (electricity) Solar Collectors Surface Liquid Biofuels Plants Capacity Average Net Calorific Values

Table 4 Production of Solid Biofuels and Biogases

Table 5 Imports by Country of Origin

Table 6 Exports by Country of Destination

STRUCTURE OF

ANNUAL QUESTIONNAIRE

copy OECDIEA 2016

Country

TABLE 1 GROSS ELECTRICITY

AND HEAT PRODUCTION

Report heat sold to third parties only

Report all heat

produced

bull Hydro is broken down by plant size bull Electricity from pumped storage is

reported separately

copy OECDIEA 2016

TABLE 2 SUPPLY TRANSFORMATION

ENERGY SECTORS AND END USE

bull 13 energy products (IRES) bull 60 flows (ISIC)

bull Supply bull Transformation Sector bull Energy Sector bull Final Energy Consumption

bull Industry Sector bull Transport Sector bull Other Sectors

bull Reporting based on NCV

Country

copy OECDIEA 2016

TABLE 3 TECHNICAL CHARACTERISTICS

copy OECDIEA 2016

TABLE 2

TABLE 4 PRODUCTION OF SOLID BIOFUELS

AND BIOGASES

TABLE 4

Solid

biofuels

Biogases

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Country TABLE 5 Imports by Country of Origin TABLE 6 Exports by Country of Destination

Country of Origin Country of Destination

TABLE 5 IMPORTS

TABLE 6 EXPORTS

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Table 2

Supply Transformation and Energy Sectors

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Table 2

Supply Transformation

Energy Sectors and Energy end use

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Electricity and

Heat

questionnaire

Table 1

Electricity and

Heat

Questionnaire

Table 1

Table 4

Production of Solid Biofuels

and Biogases

Oil

questionnaire

Table 1

Oil

Questionnaire

Table 1

Table 1

Gross

Electricity

and Heat

Production

Gross

Electricity

and Heat

Production

Electricity

production

Heat production

Electricity and

Heat

questionnaire

Table 7a

Electricity and

Heat

Questionnaire

Table 7

Table 4

Technical

Characteristics

of the

Installations at

the end of the

year

Technical

Characteristics

of the

Installations at

the end of the

Year

Capacity

Liquid biofuels

Natural Gas

questionnaire

Table 1

Natural Gas

questionnaire

Table 1 Coal

questionnaire

Table 1

Coal

Questionnaire

Table 1

Biogases

Renewables as

binding agents

Table 1

Table 3

Table 5

Imports

Table 6

Exports

INTERRELATIONSHIP OF

QUESTIONNAIRES AND TABLES

copy OECDIEA 2016

Arithmetical checks

Integers negative numbers sums

Inconsistency between the questionnairestables

Statistical checks

Percentage differences with prior year

Statistical differences (Supply - Consumption)

Breaks in series

Physical checks

Calorific values

Transformation efficiencies (Output Input)

Utilization rates (Production Capacity)

DATA QUALITY CHECKS

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Boundaries and definitions

Inclusion of primary product

Eg liquid biofuels and biogases

Active vs Passive energy

Eg passive heating building

Energy vs Non-energy application

Eg natural hot source spa

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Scattered productionconsumption data

Not all renewable and waste energies flow through conventional systems

Eg Individual consumption of firewood

Multitude of individual small installations

Eg Stand alone PV

Lack of standardized estimation methodology

Alternative data sources

Sales figures used for capacity

Using average energy efficiencies

Assumptions on consumption requirements (householdshellip)

copy OECDIEA 2016

USES OF THE DATA

copy OECDIEA 2016

Renewable Information book

Electronic data files

Energy balances

CO2 emissions

Data support for other IEA divisionsother organizations

Country reviews

PUBLICATIONS

copy OECDIEA 2016

Data used by governments worldwide for Assessing security of supply

Compare the performance of different countries

Assessing the environmental impacts of policiestechnologies Eg Measuring the evolution of efficiencies

To identify area where further effort is needed

In order to make sound policy and business decisions

And also by Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

OUTSIDE OF IEA

Data widely used by

Governments

Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

And for

Assessing security of supply

Comparing the performance of different countries

Assessing the environmental impacts of policiestechnologies

Making sound policy and business decisions

copy OECDIEA 2016

Exercise Preparation

1 Production of electricity and heat

2 Transformation

3 Transformation vs Direct use

4 biofuel Energy vs Non-Energy

5 Liquid biofuels

6 Production vs Capacity

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

copy OECDIEA 2016

Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

copy OECDIEA 2016

biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 9: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

OTHER NON-COMBUSTIBLE RENEWABLE ENERGY SOURCES (23)

PRIMARY ENERGY FORM = HEAT

Energy

Transformation

Solar thermal

Geothermal Energy Capture

Imports

Exports

Direct Use

CLASSIFICATION

Electricity Production

Heat Production

copy OECDIEA 2016

Imports

Exports

Charcoal

Biogases

Municipal

Wastes

Industrial

Wastes

Stock Draw

Stock Build

Collection Production

Energy

Transformation

Direct Use

Liquid Biofuels

Blended with

conventional

energy forms

Heat Production

Electricity Production

CLASSIFICATION

COMBUSTIBLE RENEWABLE AND WASTE FUELS (33)

Primary Solid

Biofuels

copy OECDIEA 2016

DATA REPORTING AND CHECKING

copy OECDIEA 2016

Table 1 Gross Electricity and Heat Production

Table 2 Supply Transformation Energy Sectors End-Use

Table 3 Technical Characteristics of Installations

Net Maximum Capacity (electricity) Solar Collectors Surface Liquid Biofuels Plants Capacity Average Net Calorific Values

Table 4 Production of Solid Biofuels and Biogases

Table 5 Imports by Country of Origin

Table 6 Exports by Country of Destination

STRUCTURE OF

ANNUAL QUESTIONNAIRE

copy OECDIEA 2016

Country

TABLE 1 GROSS ELECTRICITY

AND HEAT PRODUCTION

Report heat sold to third parties only

Report all heat

produced

bull Hydro is broken down by plant size bull Electricity from pumped storage is

reported separately

copy OECDIEA 2016

TABLE 2 SUPPLY TRANSFORMATION

ENERGY SECTORS AND END USE

bull 13 energy products (IRES) bull 60 flows (ISIC)

bull Supply bull Transformation Sector bull Energy Sector bull Final Energy Consumption

bull Industry Sector bull Transport Sector bull Other Sectors

bull Reporting based on NCV

Country

copy OECDIEA 2016

TABLE 3 TECHNICAL CHARACTERISTICS

copy OECDIEA 2016

TABLE 2

TABLE 4 PRODUCTION OF SOLID BIOFUELS

AND BIOGASES

TABLE 4

Solid

biofuels

Biogases

copy OECDIEA 2016

Country TABLE 5 Imports by Country of Origin TABLE 6 Exports by Country of Destination

Country of Origin Country of Destination

TABLE 5 IMPORTS

TABLE 6 EXPORTS

copy OECDIEA 2016

Table 2

Supply Transformation and Energy Sectors

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Table 2

Supply Transformation

Energy Sectors and Energy end use

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Electricity and

Heat

questionnaire

Table 1

Electricity and

Heat

Questionnaire

Table 1

Table 4

Production of Solid Biofuels

and Biogases

Oil

questionnaire

Table 1

Oil

Questionnaire

Table 1

Table 1

Gross

Electricity

and Heat

Production

Gross

Electricity

and Heat

Production

Electricity

production

Heat production

Electricity and

Heat

questionnaire

Table 7a

Electricity and

Heat

Questionnaire

Table 7

Table 4

Technical

Characteristics

of the

Installations at

the end of the

year

Technical

Characteristics

of the

Installations at

the end of the

Year

Capacity

Liquid biofuels

Natural Gas

questionnaire

Table 1

Natural Gas

questionnaire

Table 1 Coal

questionnaire

Table 1

Coal

Questionnaire

Table 1

Biogases

Renewables as

binding agents

Table 1

Table 3

Table 5

Imports

Table 6

Exports

INTERRELATIONSHIP OF

QUESTIONNAIRES AND TABLES

copy OECDIEA 2016

Arithmetical checks

Integers negative numbers sums

Inconsistency between the questionnairestables

Statistical checks

Percentage differences with prior year

Statistical differences (Supply - Consumption)

Breaks in series

Physical checks

Calorific values

Transformation efficiencies (Output Input)

Utilization rates (Production Capacity)

DATA QUALITY CHECKS

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Boundaries and definitions

Inclusion of primary product

Eg liquid biofuels and biogases

Active vs Passive energy

Eg passive heating building

Energy vs Non-energy application

Eg natural hot source spa

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Scattered productionconsumption data

Not all renewable and waste energies flow through conventional systems

Eg Individual consumption of firewood

Multitude of individual small installations

Eg Stand alone PV

Lack of standardized estimation methodology

Alternative data sources

Sales figures used for capacity

Using average energy efficiencies

Assumptions on consumption requirements (householdshellip)

copy OECDIEA 2016

USES OF THE DATA

copy OECDIEA 2016

Renewable Information book

Electronic data files

Energy balances

CO2 emissions

Data support for other IEA divisionsother organizations

Country reviews

PUBLICATIONS

copy OECDIEA 2016

Data used by governments worldwide for Assessing security of supply

Compare the performance of different countries

Assessing the environmental impacts of policiestechnologies Eg Measuring the evolution of efficiencies

To identify area where further effort is needed

In order to make sound policy and business decisions

And also by Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

OUTSIDE OF IEA

Data widely used by

Governments

Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

And for

Assessing security of supply

Comparing the performance of different countries

Assessing the environmental impacts of policiestechnologies

Making sound policy and business decisions

copy OECDIEA 2016

Exercise Preparation

1 Production of electricity and heat

2 Transformation

3 Transformation vs Direct use

4 biofuel Energy vs Non-Energy

5 Liquid biofuels

6 Production vs Capacity

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

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Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

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Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

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biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

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Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

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Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

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Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

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Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 10: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

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Imports

Exports

Charcoal

Biogases

Municipal

Wastes

Industrial

Wastes

Stock Draw

Stock Build

Collection Production

Energy

Transformation

Direct Use

Liquid Biofuels

Blended with

conventional

energy forms

Heat Production

Electricity Production

CLASSIFICATION

COMBUSTIBLE RENEWABLE AND WASTE FUELS (33)

Primary Solid

Biofuels

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DATA REPORTING AND CHECKING

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Table 1 Gross Electricity and Heat Production

Table 2 Supply Transformation Energy Sectors End-Use

Table 3 Technical Characteristics of Installations

Net Maximum Capacity (electricity) Solar Collectors Surface Liquid Biofuels Plants Capacity Average Net Calorific Values

Table 4 Production of Solid Biofuels and Biogases

Table 5 Imports by Country of Origin

Table 6 Exports by Country of Destination

STRUCTURE OF

ANNUAL QUESTIONNAIRE

copy OECDIEA 2016

Country

TABLE 1 GROSS ELECTRICITY

AND HEAT PRODUCTION

Report heat sold to third parties only

Report all heat

produced

bull Hydro is broken down by plant size bull Electricity from pumped storage is

reported separately

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TABLE 2 SUPPLY TRANSFORMATION

ENERGY SECTORS AND END USE

bull 13 energy products (IRES) bull 60 flows (ISIC)

bull Supply bull Transformation Sector bull Energy Sector bull Final Energy Consumption

bull Industry Sector bull Transport Sector bull Other Sectors

bull Reporting based on NCV

Country

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TABLE 3 TECHNICAL CHARACTERISTICS

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TABLE 2

TABLE 4 PRODUCTION OF SOLID BIOFUELS

AND BIOGASES

TABLE 4

Solid

biofuels

Biogases

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Country TABLE 5 Imports by Country of Origin TABLE 6 Exports by Country of Destination

Country of Origin Country of Destination

TABLE 5 IMPORTS

TABLE 6 EXPORTS

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Table 2

Supply Transformation and Energy Sectors

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Table 2

Supply Transformation

Energy Sectors and Energy end use

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Electricity and

Heat

questionnaire

Table 1

Electricity and

Heat

Questionnaire

Table 1

Table 4

Production of Solid Biofuels

and Biogases

Oil

questionnaire

Table 1

Oil

Questionnaire

Table 1

Table 1

Gross

Electricity

and Heat

Production

Gross

Electricity

and Heat

Production

Electricity

production

Heat production

Electricity and

Heat

questionnaire

Table 7a

Electricity and

Heat

Questionnaire

Table 7

Table 4

Technical

Characteristics

of the

Installations at

the end of the

year

Technical

Characteristics

of the

Installations at

the end of the

Year

Capacity

Liquid biofuels

Natural Gas

questionnaire

Table 1

Natural Gas

questionnaire

Table 1 Coal

questionnaire

Table 1

Coal

Questionnaire

Table 1

Biogases

Renewables as

binding agents

Table 1

Table 3

Table 5

Imports

Table 6

Exports

INTERRELATIONSHIP OF

QUESTIONNAIRES AND TABLES

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Arithmetical checks

Integers negative numbers sums

Inconsistency between the questionnairestables

Statistical checks

Percentage differences with prior year

Statistical differences (Supply - Consumption)

Breaks in series

Physical checks

Calorific values

Transformation efficiencies (Output Input)

Utilization rates (Production Capacity)

DATA QUALITY CHECKS

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DATA COLLECTION CHALLENGES

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DATA COLLECTION CHALLENGES

Boundaries and definitions

Inclusion of primary product

Eg liquid biofuels and biogases

Active vs Passive energy

Eg passive heating building

Energy vs Non-energy application

Eg natural hot source spa

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Scattered productionconsumption data

Not all renewable and waste energies flow through conventional systems

Eg Individual consumption of firewood

Multitude of individual small installations

Eg Stand alone PV

Lack of standardized estimation methodology

Alternative data sources

Sales figures used for capacity

Using average energy efficiencies

Assumptions on consumption requirements (householdshellip)

copy OECDIEA 2016

USES OF THE DATA

copy OECDIEA 2016

Renewable Information book

Electronic data files

Energy balances

CO2 emissions

Data support for other IEA divisionsother organizations

Country reviews

PUBLICATIONS

copy OECDIEA 2016

Data used by governments worldwide for Assessing security of supply

Compare the performance of different countries

Assessing the environmental impacts of policiestechnologies Eg Measuring the evolution of efficiencies

To identify area where further effort is needed

In order to make sound policy and business decisions

And also by Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

OUTSIDE OF IEA

Data widely used by

Governments

Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

And for

Assessing security of supply

Comparing the performance of different countries

Assessing the environmental impacts of policiestechnologies

Making sound policy and business decisions

copy OECDIEA 2016

Exercise Preparation

1 Production of electricity and heat

2 Transformation

3 Transformation vs Direct use

4 biofuel Energy vs Non-Energy

5 Liquid biofuels

6 Production vs Capacity

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

copy OECDIEA 2016

Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

copy OECDIEA 2016

biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 11: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

DATA REPORTING AND CHECKING

copy OECDIEA 2016

Table 1 Gross Electricity and Heat Production

Table 2 Supply Transformation Energy Sectors End-Use

Table 3 Technical Characteristics of Installations

Net Maximum Capacity (electricity) Solar Collectors Surface Liquid Biofuels Plants Capacity Average Net Calorific Values

Table 4 Production of Solid Biofuels and Biogases

Table 5 Imports by Country of Origin

Table 6 Exports by Country of Destination

STRUCTURE OF

ANNUAL QUESTIONNAIRE

copy OECDIEA 2016

Country

TABLE 1 GROSS ELECTRICITY

AND HEAT PRODUCTION

Report heat sold to third parties only

Report all heat

produced

bull Hydro is broken down by plant size bull Electricity from pumped storage is

reported separately

copy OECDIEA 2016

TABLE 2 SUPPLY TRANSFORMATION

ENERGY SECTORS AND END USE

bull 13 energy products (IRES) bull 60 flows (ISIC)

bull Supply bull Transformation Sector bull Energy Sector bull Final Energy Consumption

bull Industry Sector bull Transport Sector bull Other Sectors

bull Reporting based on NCV

Country

copy OECDIEA 2016

TABLE 3 TECHNICAL CHARACTERISTICS

copy OECDIEA 2016

TABLE 2

TABLE 4 PRODUCTION OF SOLID BIOFUELS

AND BIOGASES

TABLE 4

Solid

biofuels

Biogases

copy OECDIEA 2016

Country TABLE 5 Imports by Country of Origin TABLE 6 Exports by Country of Destination

Country of Origin Country of Destination

TABLE 5 IMPORTS

TABLE 6 EXPORTS

copy OECDIEA 2016

Table 2

Supply Transformation and Energy Sectors

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Table 2

Supply Transformation

Energy Sectors and Energy end use

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Electricity and

Heat

questionnaire

Table 1

Electricity and

Heat

Questionnaire

Table 1

Table 4

Production of Solid Biofuels

and Biogases

Oil

questionnaire

Table 1

Oil

Questionnaire

Table 1

Table 1

Gross

Electricity

and Heat

Production

Gross

Electricity

and Heat

Production

Electricity

production

Heat production

Electricity and

Heat

questionnaire

Table 7a

Electricity and

Heat

Questionnaire

Table 7

Table 4

Technical

Characteristics

of the

Installations at

the end of the

year

Technical

Characteristics

of the

Installations at

the end of the

Year

Capacity

Liquid biofuels

Natural Gas

questionnaire

Table 1

Natural Gas

questionnaire

Table 1 Coal

questionnaire

Table 1

Coal

Questionnaire

Table 1

Biogases

Renewables as

binding agents

Table 1

Table 3

Table 5

Imports

Table 6

Exports

INTERRELATIONSHIP OF

QUESTIONNAIRES AND TABLES

copy OECDIEA 2016

Arithmetical checks

Integers negative numbers sums

Inconsistency between the questionnairestables

Statistical checks

Percentage differences with prior year

Statistical differences (Supply - Consumption)

Breaks in series

Physical checks

Calorific values

Transformation efficiencies (Output Input)

Utilization rates (Production Capacity)

DATA QUALITY CHECKS

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Boundaries and definitions

Inclusion of primary product

Eg liquid biofuels and biogases

Active vs Passive energy

Eg passive heating building

Energy vs Non-energy application

Eg natural hot source spa

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Scattered productionconsumption data

Not all renewable and waste energies flow through conventional systems

Eg Individual consumption of firewood

Multitude of individual small installations

Eg Stand alone PV

Lack of standardized estimation methodology

Alternative data sources

Sales figures used for capacity

Using average energy efficiencies

Assumptions on consumption requirements (householdshellip)

copy OECDIEA 2016

USES OF THE DATA

copy OECDIEA 2016

Renewable Information book

Electronic data files

Energy balances

CO2 emissions

Data support for other IEA divisionsother organizations

Country reviews

PUBLICATIONS

copy OECDIEA 2016

Data used by governments worldwide for Assessing security of supply

Compare the performance of different countries

Assessing the environmental impacts of policiestechnologies Eg Measuring the evolution of efficiencies

To identify area where further effort is needed

In order to make sound policy and business decisions

And also by Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

OUTSIDE OF IEA

Data widely used by

Governments

Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

And for

Assessing security of supply

Comparing the performance of different countries

Assessing the environmental impacts of policiestechnologies

Making sound policy and business decisions

copy OECDIEA 2016

Exercise Preparation

1 Production of electricity and heat

2 Transformation

3 Transformation vs Direct use

4 biofuel Energy vs Non-Energy

5 Liquid biofuels

6 Production vs Capacity

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

copy OECDIEA 2016

Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

copy OECDIEA 2016

biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 12: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

Table 1 Gross Electricity and Heat Production

Table 2 Supply Transformation Energy Sectors End-Use

Table 3 Technical Characteristics of Installations

Net Maximum Capacity (electricity) Solar Collectors Surface Liquid Biofuels Plants Capacity Average Net Calorific Values

Table 4 Production of Solid Biofuels and Biogases

Table 5 Imports by Country of Origin

Table 6 Exports by Country of Destination

STRUCTURE OF

ANNUAL QUESTIONNAIRE

copy OECDIEA 2016

Country

TABLE 1 GROSS ELECTRICITY

AND HEAT PRODUCTION

Report heat sold to third parties only

Report all heat

produced

bull Hydro is broken down by plant size bull Electricity from pumped storage is

reported separately

copy OECDIEA 2016

TABLE 2 SUPPLY TRANSFORMATION

ENERGY SECTORS AND END USE

bull 13 energy products (IRES) bull 60 flows (ISIC)

bull Supply bull Transformation Sector bull Energy Sector bull Final Energy Consumption

bull Industry Sector bull Transport Sector bull Other Sectors

bull Reporting based on NCV

Country

copy OECDIEA 2016

TABLE 3 TECHNICAL CHARACTERISTICS

copy OECDIEA 2016

TABLE 2

TABLE 4 PRODUCTION OF SOLID BIOFUELS

AND BIOGASES

TABLE 4

Solid

biofuels

Biogases

copy OECDIEA 2016

Country TABLE 5 Imports by Country of Origin TABLE 6 Exports by Country of Destination

Country of Origin Country of Destination

TABLE 5 IMPORTS

TABLE 6 EXPORTS

copy OECDIEA 2016

Table 2

Supply Transformation and Energy Sectors

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Table 2

Supply Transformation

Energy Sectors and Energy end use

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Electricity and

Heat

questionnaire

Table 1

Electricity and

Heat

Questionnaire

Table 1

Table 4

Production of Solid Biofuels

and Biogases

Oil

questionnaire

Table 1

Oil

Questionnaire

Table 1

Table 1

Gross

Electricity

and Heat

Production

Gross

Electricity

and Heat

Production

Electricity

production

Heat production

Electricity and

Heat

questionnaire

Table 7a

Electricity and

Heat

Questionnaire

Table 7

Table 4

Technical

Characteristics

of the

Installations at

the end of the

year

Technical

Characteristics

of the

Installations at

the end of the

Year

Capacity

Liquid biofuels

Natural Gas

questionnaire

Table 1

Natural Gas

questionnaire

Table 1 Coal

questionnaire

Table 1

Coal

Questionnaire

Table 1

Biogases

Renewables as

binding agents

Table 1

Table 3

Table 5

Imports

Table 6

Exports

INTERRELATIONSHIP OF

QUESTIONNAIRES AND TABLES

copy OECDIEA 2016

Arithmetical checks

Integers negative numbers sums

Inconsistency between the questionnairestables

Statistical checks

Percentage differences with prior year

Statistical differences (Supply - Consumption)

Breaks in series

Physical checks

Calorific values

Transformation efficiencies (Output Input)

Utilization rates (Production Capacity)

DATA QUALITY CHECKS

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DATA COLLECTION CHALLENGES

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Boundaries and definitions

Inclusion of primary product

Eg liquid biofuels and biogases

Active vs Passive energy

Eg passive heating building

Energy vs Non-energy application

Eg natural hot source spa

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Scattered productionconsumption data

Not all renewable and waste energies flow through conventional systems

Eg Individual consumption of firewood

Multitude of individual small installations

Eg Stand alone PV

Lack of standardized estimation methodology

Alternative data sources

Sales figures used for capacity

Using average energy efficiencies

Assumptions on consumption requirements (householdshellip)

copy OECDIEA 2016

USES OF THE DATA

copy OECDIEA 2016

Renewable Information book

Electronic data files

Energy balances

CO2 emissions

Data support for other IEA divisionsother organizations

Country reviews

PUBLICATIONS

copy OECDIEA 2016

Data used by governments worldwide for Assessing security of supply

Compare the performance of different countries

Assessing the environmental impacts of policiestechnologies Eg Measuring the evolution of efficiencies

To identify area where further effort is needed

In order to make sound policy and business decisions

And also by Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

OUTSIDE OF IEA

Data widely used by

Governments

Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

And for

Assessing security of supply

Comparing the performance of different countries

Assessing the environmental impacts of policiestechnologies

Making sound policy and business decisions

copy OECDIEA 2016

Exercise Preparation

1 Production of electricity and heat

2 Transformation

3 Transformation vs Direct use

4 biofuel Energy vs Non-Energy

5 Liquid biofuels

6 Production vs Capacity

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

copy OECDIEA 2016

Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

copy OECDIEA 2016

biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 13: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

Country

TABLE 1 GROSS ELECTRICITY

AND HEAT PRODUCTION

Report heat sold to third parties only

Report all heat

produced

bull Hydro is broken down by plant size bull Electricity from pumped storage is

reported separately

copy OECDIEA 2016

TABLE 2 SUPPLY TRANSFORMATION

ENERGY SECTORS AND END USE

bull 13 energy products (IRES) bull 60 flows (ISIC)

bull Supply bull Transformation Sector bull Energy Sector bull Final Energy Consumption

bull Industry Sector bull Transport Sector bull Other Sectors

bull Reporting based on NCV

Country

copy OECDIEA 2016

TABLE 3 TECHNICAL CHARACTERISTICS

copy OECDIEA 2016

TABLE 2

TABLE 4 PRODUCTION OF SOLID BIOFUELS

AND BIOGASES

TABLE 4

Solid

biofuels

Biogases

copy OECDIEA 2016

Country TABLE 5 Imports by Country of Origin TABLE 6 Exports by Country of Destination

Country of Origin Country of Destination

TABLE 5 IMPORTS

TABLE 6 EXPORTS

copy OECDIEA 2016

Table 2

Supply Transformation and Energy Sectors

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Table 2

Supply Transformation

Energy Sectors and Energy end use

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Electricity and

Heat

questionnaire

Table 1

Electricity and

Heat

Questionnaire

Table 1

Table 4

Production of Solid Biofuels

and Biogases

Oil

questionnaire

Table 1

Oil

Questionnaire

Table 1

Table 1

Gross

Electricity

and Heat

Production

Gross

Electricity

and Heat

Production

Electricity

production

Heat production

Electricity and

Heat

questionnaire

Table 7a

Electricity and

Heat

Questionnaire

Table 7

Table 4

Technical

Characteristics

of the

Installations at

the end of the

year

Technical

Characteristics

of the

Installations at

the end of the

Year

Capacity

Liquid biofuels

Natural Gas

questionnaire

Table 1

Natural Gas

questionnaire

Table 1 Coal

questionnaire

Table 1

Coal

Questionnaire

Table 1

Biogases

Renewables as

binding agents

Table 1

Table 3

Table 5

Imports

Table 6

Exports

INTERRELATIONSHIP OF

QUESTIONNAIRES AND TABLES

copy OECDIEA 2016

Arithmetical checks

Integers negative numbers sums

Inconsistency between the questionnairestables

Statistical checks

Percentage differences with prior year

Statistical differences (Supply - Consumption)

Breaks in series

Physical checks

Calorific values

Transformation efficiencies (Output Input)

Utilization rates (Production Capacity)

DATA QUALITY CHECKS

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Boundaries and definitions

Inclusion of primary product

Eg liquid biofuels and biogases

Active vs Passive energy

Eg passive heating building

Energy vs Non-energy application

Eg natural hot source spa

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Scattered productionconsumption data

Not all renewable and waste energies flow through conventional systems

Eg Individual consumption of firewood

Multitude of individual small installations

Eg Stand alone PV

Lack of standardized estimation methodology

Alternative data sources

Sales figures used for capacity

Using average energy efficiencies

Assumptions on consumption requirements (householdshellip)

copy OECDIEA 2016

USES OF THE DATA

copy OECDIEA 2016

Renewable Information book

Electronic data files

Energy balances

CO2 emissions

Data support for other IEA divisionsother organizations

Country reviews

PUBLICATIONS

copy OECDIEA 2016

Data used by governments worldwide for Assessing security of supply

Compare the performance of different countries

Assessing the environmental impacts of policiestechnologies Eg Measuring the evolution of efficiencies

To identify area where further effort is needed

In order to make sound policy and business decisions

And also by Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

OUTSIDE OF IEA

Data widely used by

Governments

Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

And for

Assessing security of supply

Comparing the performance of different countries

Assessing the environmental impacts of policiestechnologies

Making sound policy and business decisions

copy OECDIEA 2016

Exercise Preparation

1 Production of electricity and heat

2 Transformation

3 Transformation vs Direct use

4 biofuel Energy vs Non-Energy

5 Liquid biofuels

6 Production vs Capacity

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

copy OECDIEA 2016

Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

copy OECDIEA 2016

biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 14: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

TABLE 2 SUPPLY TRANSFORMATION

ENERGY SECTORS AND END USE

bull 13 energy products (IRES) bull 60 flows (ISIC)

bull Supply bull Transformation Sector bull Energy Sector bull Final Energy Consumption

bull Industry Sector bull Transport Sector bull Other Sectors

bull Reporting based on NCV

Country

copy OECDIEA 2016

TABLE 3 TECHNICAL CHARACTERISTICS

copy OECDIEA 2016

TABLE 2

TABLE 4 PRODUCTION OF SOLID BIOFUELS

AND BIOGASES

TABLE 4

Solid

biofuels

Biogases

copy OECDIEA 2016

Country TABLE 5 Imports by Country of Origin TABLE 6 Exports by Country of Destination

Country of Origin Country of Destination

TABLE 5 IMPORTS

TABLE 6 EXPORTS

copy OECDIEA 2016

Table 2

Supply Transformation and Energy Sectors

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Table 2

Supply Transformation

Energy Sectors and Energy end use

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Electricity and

Heat

questionnaire

Table 1

Electricity and

Heat

Questionnaire

Table 1

Table 4

Production of Solid Biofuels

and Biogases

Oil

questionnaire

Table 1

Oil

Questionnaire

Table 1

Table 1

Gross

Electricity

and Heat

Production

Gross

Electricity

and Heat

Production

Electricity

production

Heat production

Electricity and

Heat

questionnaire

Table 7a

Electricity and

Heat

Questionnaire

Table 7

Table 4

Technical

Characteristics

of the

Installations at

the end of the

year

Technical

Characteristics

of the

Installations at

the end of the

Year

Capacity

Liquid biofuels

Natural Gas

questionnaire

Table 1

Natural Gas

questionnaire

Table 1 Coal

questionnaire

Table 1

Coal

Questionnaire

Table 1

Biogases

Renewables as

binding agents

Table 1

Table 3

Table 5

Imports

Table 6

Exports

INTERRELATIONSHIP OF

QUESTIONNAIRES AND TABLES

copy OECDIEA 2016

Arithmetical checks

Integers negative numbers sums

Inconsistency between the questionnairestables

Statistical checks

Percentage differences with prior year

Statistical differences (Supply - Consumption)

Breaks in series

Physical checks

Calorific values

Transformation efficiencies (Output Input)

Utilization rates (Production Capacity)

DATA QUALITY CHECKS

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Boundaries and definitions

Inclusion of primary product

Eg liquid biofuels and biogases

Active vs Passive energy

Eg passive heating building

Energy vs Non-energy application

Eg natural hot source spa

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Scattered productionconsumption data

Not all renewable and waste energies flow through conventional systems

Eg Individual consumption of firewood

Multitude of individual small installations

Eg Stand alone PV

Lack of standardized estimation methodology

Alternative data sources

Sales figures used for capacity

Using average energy efficiencies

Assumptions on consumption requirements (householdshellip)

copy OECDIEA 2016

USES OF THE DATA

copy OECDIEA 2016

Renewable Information book

Electronic data files

Energy balances

CO2 emissions

Data support for other IEA divisionsother organizations

Country reviews

PUBLICATIONS

copy OECDIEA 2016

Data used by governments worldwide for Assessing security of supply

Compare the performance of different countries

Assessing the environmental impacts of policiestechnologies Eg Measuring the evolution of efficiencies

To identify area where further effort is needed

In order to make sound policy and business decisions

And also by Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

OUTSIDE OF IEA

Data widely used by

Governments

Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

And for

Assessing security of supply

Comparing the performance of different countries

Assessing the environmental impacts of policiestechnologies

Making sound policy and business decisions

copy OECDIEA 2016

Exercise Preparation

1 Production of electricity and heat

2 Transformation

3 Transformation vs Direct use

4 biofuel Energy vs Non-Energy

5 Liquid biofuels

6 Production vs Capacity

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

copy OECDIEA 2016

Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

copy OECDIEA 2016

biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 15: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

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TABLE 3 TECHNICAL CHARACTERISTICS

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TABLE 2

TABLE 4 PRODUCTION OF SOLID BIOFUELS

AND BIOGASES

TABLE 4

Solid

biofuels

Biogases

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Country TABLE 5 Imports by Country of Origin TABLE 6 Exports by Country of Destination

Country of Origin Country of Destination

TABLE 5 IMPORTS

TABLE 6 EXPORTS

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Table 2

Supply Transformation and Energy Sectors

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Table 2

Supply Transformation

Energy Sectors and Energy end use

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Electricity and

Heat

questionnaire

Table 1

Electricity and

Heat

Questionnaire

Table 1

Table 4

Production of Solid Biofuels

and Biogases

Oil

questionnaire

Table 1

Oil

Questionnaire

Table 1

Table 1

Gross

Electricity

and Heat

Production

Gross

Electricity

and Heat

Production

Electricity

production

Heat production

Electricity and

Heat

questionnaire

Table 7a

Electricity and

Heat

Questionnaire

Table 7

Table 4

Technical

Characteristics

of the

Installations at

the end of the

year

Technical

Characteristics

of the

Installations at

the end of the

Year

Capacity

Liquid biofuels

Natural Gas

questionnaire

Table 1

Natural Gas

questionnaire

Table 1 Coal

questionnaire

Table 1

Coal

Questionnaire

Table 1

Biogases

Renewables as

binding agents

Table 1

Table 3

Table 5

Imports

Table 6

Exports

INTERRELATIONSHIP OF

QUESTIONNAIRES AND TABLES

copy OECDIEA 2016

Arithmetical checks

Integers negative numbers sums

Inconsistency between the questionnairestables

Statistical checks

Percentage differences with prior year

Statistical differences (Supply - Consumption)

Breaks in series

Physical checks

Calorific values

Transformation efficiencies (Output Input)

Utilization rates (Production Capacity)

DATA QUALITY CHECKS

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DATA COLLECTION CHALLENGES

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DATA COLLECTION CHALLENGES

Boundaries and definitions

Inclusion of primary product

Eg liquid biofuels and biogases

Active vs Passive energy

Eg passive heating building

Energy vs Non-energy application

Eg natural hot source spa

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Scattered productionconsumption data

Not all renewable and waste energies flow through conventional systems

Eg Individual consumption of firewood

Multitude of individual small installations

Eg Stand alone PV

Lack of standardized estimation methodology

Alternative data sources

Sales figures used for capacity

Using average energy efficiencies

Assumptions on consumption requirements (householdshellip)

copy OECDIEA 2016

USES OF THE DATA

copy OECDIEA 2016

Renewable Information book

Electronic data files

Energy balances

CO2 emissions

Data support for other IEA divisionsother organizations

Country reviews

PUBLICATIONS

copy OECDIEA 2016

Data used by governments worldwide for Assessing security of supply

Compare the performance of different countries

Assessing the environmental impacts of policiestechnologies Eg Measuring the evolution of efficiencies

To identify area where further effort is needed

In order to make sound policy and business decisions

And also by Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

OUTSIDE OF IEA

Data widely used by

Governments

Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

And for

Assessing security of supply

Comparing the performance of different countries

Assessing the environmental impacts of policiestechnologies

Making sound policy and business decisions

copy OECDIEA 2016

Exercise Preparation

1 Production of electricity and heat

2 Transformation

3 Transformation vs Direct use

4 biofuel Energy vs Non-Energy

5 Liquid biofuels

6 Production vs Capacity

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

copy OECDIEA 2016

Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

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biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 16: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

TABLE 2

TABLE 4 PRODUCTION OF SOLID BIOFUELS

AND BIOGASES

TABLE 4

Solid

biofuels

Biogases

copy OECDIEA 2016

Country TABLE 5 Imports by Country of Origin TABLE 6 Exports by Country of Destination

Country of Origin Country of Destination

TABLE 5 IMPORTS

TABLE 6 EXPORTS

copy OECDIEA 2016

Table 2

Supply Transformation and Energy Sectors

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Table 2

Supply Transformation

Energy Sectors and Energy end use

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Electricity and

Heat

questionnaire

Table 1

Electricity and

Heat

Questionnaire

Table 1

Table 4

Production of Solid Biofuels

and Biogases

Oil

questionnaire

Table 1

Oil

Questionnaire

Table 1

Table 1

Gross

Electricity

and Heat

Production

Gross

Electricity

and Heat

Production

Electricity

production

Heat production

Electricity and

Heat

questionnaire

Table 7a

Electricity and

Heat

Questionnaire

Table 7

Table 4

Technical

Characteristics

of the

Installations at

the end of the

year

Technical

Characteristics

of the

Installations at

the end of the

Year

Capacity

Liquid biofuels

Natural Gas

questionnaire

Table 1

Natural Gas

questionnaire

Table 1 Coal

questionnaire

Table 1

Coal

Questionnaire

Table 1

Biogases

Renewables as

binding agents

Table 1

Table 3

Table 5

Imports

Table 6

Exports

INTERRELATIONSHIP OF

QUESTIONNAIRES AND TABLES

copy OECDIEA 2016

Arithmetical checks

Integers negative numbers sums

Inconsistency between the questionnairestables

Statistical checks

Percentage differences with prior year

Statistical differences (Supply - Consumption)

Breaks in series

Physical checks

Calorific values

Transformation efficiencies (Output Input)

Utilization rates (Production Capacity)

DATA QUALITY CHECKS

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Boundaries and definitions

Inclusion of primary product

Eg liquid biofuels and biogases

Active vs Passive energy

Eg passive heating building

Energy vs Non-energy application

Eg natural hot source spa

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Scattered productionconsumption data

Not all renewable and waste energies flow through conventional systems

Eg Individual consumption of firewood

Multitude of individual small installations

Eg Stand alone PV

Lack of standardized estimation methodology

Alternative data sources

Sales figures used for capacity

Using average energy efficiencies

Assumptions on consumption requirements (householdshellip)

copy OECDIEA 2016

USES OF THE DATA

copy OECDIEA 2016

Renewable Information book

Electronic data files

Energy balances

CO2 emissions

Data support for other IEA divisionsother organizations

Country reviews

PUBLICATIONS

copy OECDIEA 2016

Data used by governments worldwide for Assessing security of supply

Compare the performance of different countries

Assessing the environmental impacts of policiestechnologies Eg Measuring the evolution of efficiencies

To identify area where further effort is needed

In order to make sound policy and business decisions

And also by Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

OUTSIDE OF IEA

Data widely used by

Governments

Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

And for

Assessing security of supply

Comparing the performance of different countries

Assessing the environmental impacts of policiestechnologies

Making sound policy and business decisions

copy OECDIEA 2016

Exercise Preparation

1 Production of electricity and heat

2 Transformation

3 Transformation vs Direct use

4 biofuel Energy vs Non-Energy

5 Liquid biofuels

6 Production vs Capacity

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

copy OECDIEA 2016

Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

copy OECDIEA 2016

biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 17: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

Country TABLE 5 Imports by Country of Origin TABLE 6 Exports by Country of Destination

Country of Origin Country of Destination

TABLE 5 IMPORTS

TABLE 6 EXPORTS

copy OECDIEA 2016

Table 2

Supply Transformation and Energy Sectors

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Table 2

Supply Transformation

Energy Sectors and Energy end use

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Electricity and

Heat

questionnaire

Table 1

Electricity and

Heat

Questionnaire

Table 1

Table 4

Production of Solid Biofuels

and Biogases

Oil

questionnaire

Table 1

Oil

Questionnaire

Table 1

Table 1

Gross

Electricity

and Heat

Production

Gross

Electricity

and Heat

Production

Electricity

production

Heat production

Electricity and

Heat

questionnaire

Table 7a

Electricity and

Heat

Questionnaire

Table 7

Table 4

Technical

Characteristics

of the

Installations at

the end of the

year

Technical

Characteristics

of the

Installations at

the end of the

Year

Capacity

Liquid biofuels

Natural Gas

questionnaire

Table 1

Natural Gas

questionnaire

Table 1 Coal

questionnaire

Table 1

Coal

Questionnaire

Table 1

Biogases

Renewables as

binding agents

Table 1

Table 3

Table 5

Imports

Table 6

Exports

INTERRELATIONSHIP OF

QUESTIONNAIRES AND TABLES

copy OECDIEA 2016

Arithmetical checks

Integers negative numbers sums

Inconsistency between the questionnairestables

Statistical checks

Percentage differences with prior year

Statistical differences (Supply - Consumption)

Breaks in series

Physical checks

Calorific values

Transformation efficiencies (Output Input)

Utilization rates (Production Capacity)

DATA QUALITY CHECKS

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Boundaries and definitions

Inclusion of primary product

Eg liquid biofuels and biogases

Active vs Passive energy

Eg passive heating building

Energy vs Non-energy application

Eg natural hot source spa

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Scattered productionconsumption data

Not all renewable and waste energies flow through conventional systems

Eg Individual consumption of firewood

Multitude of individual small installations

Eg Stand alone PV

Lack of standardized estimation methodology

Alternative data sources

Sales figures used for capacity

Using average energy efficiencies

Assumptions on consumption requirements (householdshellip)

copy OECDIEA 2016

USES OF THE DATA

copy OECDIEA 2016

Renewable Information book

Electronic data files

Energy balances

CO2 emissions

Data support for other IEA divisionsother organizations

Country reviews

PUBLICATIONS

copy OECDIEA 2016

Data used by governments worldwide for Assessing security of supply

Compare the performance of different countries

Assessing the environmental impacts of policiestechnologies Eg Measuring the evolution of efficiencies

To identify area where further effort is needed

In order to make sound policy and business decisions

And also by Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

OUTSIDE OF IEA

Data widely used by

Governments

Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

And for

Assessing security of supply

Comparing the performance of different countries

Assessing the environmental impacts of policiestechnologies

Making sound policy and business decisions

copy OECDIEA 2016

Exercise Preparation

1 Production of electricity and heat

2 Transformation

3 Transformation vs Direct use

4 biofuel Energy vs Non-Energy

5 Liquid biofuels

6 Production vs Capacity

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

copy OECDIEA 2016

Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

copy OECDIEA 2016

biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

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Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 18: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

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Table 2

Supply Transformation and Energy Sectors

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Table 2

Supply Transformation

Energy Sectors and Energy end use

= Transformation + Energy + Distribution

Losses + Final Energy Consumption

Electricity and

Heat

questionnaire

Table 1

Electricity and

Heat

Questionnaire

Table 1

Table 4

Production of Solid Biofuels

and Biogases

Oil

questionnaire

Table 1

Oil

Questionnaire

Table 1

Table 1

Gross

Electricity

and Heat

Production

Gross

Electricity

and Heat

Production

Electricity

production

Heat production

Electricity and

Heat

questionnaire

Table 7a

Electricity and

Heat

Questionnaire

Table 7

Table 4

Technical

Characteristics

of the

Installations at

the end of the

year

Technical

Characteristics

of the

Installations at

the end of the

Year

Capacity

Liquid biofuels

Natural Gas

questionnaire

Table 1

Natural Gas

questionnaire

Table 1 Coal

questionnaire

Table 1

Coal

Questionnaire

Table 1

Biogases

Renewables as

binding agents

Table 1

Table 3

Table 5

Imports

Table 6

Exports

INTERRELATIONSHIP OF

QUESTIONNAIRES AND TABLES

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Arithmetical checks

Integers negative numbers sums

Inconsistency between the questionnairestables

Statistical checks

Percentage differences with prior year

Statistical differences (Supply - Consumption)

Breaks in series

Physical checks

Calorific values

Transformation efficiencies (Output Input)

Utilization rates (Production Capacity)

DATA QUALITY CHECKS

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Boundaries and definitions

Inclusion of primary product

Eg liquid biofuels and biogases

Active vs Passive energy

Eg passive heating building

Energy vs Non-energy application

Eg natural hot source spa

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Scattered productionconsumption data

Not all renewable and waste energies flow through conventional systems

Eg Individual consumption of firewood

Multitude of individual small installations

Eg Stand alone PV

Lack of standardized estimation methodology

Alternative data sources

Sales figures used for capacity

Using average energy efficiencies

Assumptions on consumption requirements (householdshellip)

copy OECDIEA 2016

USES OF THE DATA

copy OECDIEA 2016

Renewable Information book

Electronic data files

Energy balances

CO2 emissions

Data support for other IEA divisionsother organizations

Country reviews

PUBLICATIONS

copy OECDIEA 2016

Data used by governments worldwide for Assessing security of supply

Compare the performance of different countries

Assessing the environmental impacts of policiestechnologies Eg Measuring the evolution of efficiencies

To identify area where further effort is needed

In order to make sound policy and business decisions

And also by Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

OUTSIDE OF IEA

Data widely used by

Governments

Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

And for

Assessing security of supply

Comparing the performance of different countries

Assessing the environmental impacts of policiestechnologies

Making sound policy and business decisions

copy OECDIEA 2016

Exercise Preparation

1 Production of electricity and heat

2 Transformation

3 Transformation vs Direct use

4 biofuel Energy vs Non-Energy

5 Liquid biofuels

6 Production vs Capacity

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

copy OECDIEA 2016

Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

copy OECDIEA 2016

biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 19: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

Arithmetical checks

Integers negative numbers sums

Inconsistency between the questionnairestables

Statistical checks

Percentage differences with prior year

Statistical differences (Supply - Consumption)

Breaks in series

Physical checks

Calorific values

Transformation efficiencies (Output Input)

Utilization rates (Production Capacity)

DATA QUALITY CHECKS

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Boundaries and definitions

Inclusion of primary product

Eg liquid biofuels and biogases

Active vs Passive energy

Eg passive heating building

Energy vs Non-energy application

Eg natural hot source spa

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Scattered productionconsumption data

Not all renewable and waste energies flow through conventional systems

Eg Individual consumption of firewood

Multitude of individual small installations

Eg Stand alone PV

Lack of standardized estimation methodology

Alternative data sources

Sales figures used for capacity

Using average energy efficiencies

Assumptions on consumption requirements (householdshellip)

copy OECDIEA 2016

USES OF THE DATA

copy OECDIEA 2016

Renewable Information book

Electronic data files

Energy balances

CO2 emissions

Data support for other IEA divisionsother organizations

Country reviews

PUBLICATIONS

copy OECDIEA 2016

Data used by governments worldwide for Assessing security of supply

Compare the performance of different countries

Assessing the environmental impacts of policiestechnologies Eg Measuring the evolution of efficiencies

To identify area where further effort is needed

In order to make sound policy and business decisions

And also by Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

OUTSIDE OF IEA

Data widely used by

Governments

Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

And for

Assessing security of supply

Comparing the performance of different countries

Assessing the environmental impacts of policiestechnologies

Making sound policy and business decisions

copy OECDIEA 2016

Exercise Preparation

1 Production of electricity and heat

2 Transformation

3 Transformation vs Direct use

4 biofuel Energy vs Non-Energy

5 Liquid biofuels

6 Production vs Capacity

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

copy OECDIEA 2016

Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

copy OECDIEA 2016

biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 20: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Boundaries and definitions

Inclusion of primary product

Eg liquid biofuels and biogases

Active vs Passive energy

Eg passive heating building

Energy vs Non-energy application

Eg natural hot source spa

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Scattered productionconsumption data

Not all renewable and waste energies flow through conventional systems

Eg Individual consumption of firewood

Multitude of individual small installations

Eg Stand alone PV

Lack of standardized estimation methodology

Alternative data sources

Sales figures used for capacity

Using average energy efficiencies

Assumptions on consumption requirements (householdshellip)

copy OECDIEA 2016

USES OF THE DATA

copy OECDIEA 2016

Renewable Information book

Electronic data files

Energy balances

CO2 emissions

Data support for other IEA divisionsother organizations

Country reviews

PUBLICATIONS

copy OECDIEA 2016

Data used by governments worldwide for Assessing security of supply

Compare the performance of different countries

Assessing the environmental impacts of policiestechnologies Eg Measuring the evolution of efficiencies

To identify area where further effort is needed

In order to make sound policy and business decisions

And also by Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

OUTSIDE OF IEA

Data widely used by

Governments

Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

And for

Assessing security of supply

Comparing the performance of different countries

Assessing the environmental impacts of policiestechnologies

Making sound policy and business decisions

copy OECDIEA 2016

Exercise Preparation

1 Production of electricity and heat

2 Transformation

3 Transformation vs Direct use

4 biofuel Energy vs Non-Energy

5 Liquid biofuels

6 Production vs Capacity

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

copy OECDIEA 2016

Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

copy OECDIEA 2016

biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 21: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Boundaries and definitions

Inclusion of primary product

Eg liquid biofuels and biogases

Active vs Passive energy

Eg passive heating building

Energy vs Non-energy application

Eg natural hot source spa

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Scattered productionconsumption data

Not all renewable and waste energies flow through conventional systems

Eg Individual consumption of firewood

Multitude of individual small installations

Eg Stand alone PV

Lack of standardized estimation methodology

Alternative data sources

Sales figures used for capacity

Using average energy efficiencies

Assumptions on consumption requirements (householdshellip)

copy OECDIEA 2016

USES OF THE DATA

copy OECDIEA 2016

Renewable Information book

Electronic data files

Energy balances

CO2 emissions

Data support for other IEA divisionsother organizations

Country reviews

PUBLICATIONS

copy OECDIEA 2016

Data used by governments worldwide for Assessing security of supply

Compare the performance of different countries

Assessing the environmental impacts of policiestechnologies Eg Measuring the evolution of efficiencies

To identify area where further effort is needed

In order to make sound policy and business decisions

And also by Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

OUTSIDE OF IEA

Data widely used by

Governments

Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

And for

Assessing security of supply

Comparing the performance of different countries

Assessing the environmental impacts of policiestechnologies

Making sound policy and business decisions

copy OECDIEA 2016

Exercise Preparation

1 Production of electricity and heat

2 Transformation

3 Transformation vs Direct use

4 biofuel Energy vs Non-Energy

5 Liquid biofuels

6 Production vs Capacity

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

copy OECDIEA 2016

Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

copy OECDIEA 2016

biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 22: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

DATA COLLECTION CHALLENGES

Scattered productionconsumption data

Not all renewable and waste energies flow through conventional systems

Eg Individual consumption of firewood

Multitude of individual small installations

Eg Stand alone PV

Lack of standardized estimation methodology

Alternative data sources

Sales figures used for capacity

Using average energy efficiencies

Assumptions on consumption requirements (householdshellip)

copy OECDIEA 2016

USES OF THE DATA

copy OECDIEA 2016

Renewable Information book

Electronic data files

Energy balances

CO2 emissions

Data support for other IEA divisionsother organizations

Country reviews

PUBLICATIONS

copy OECDIEA 2016

Data used by governments worldwide for Assessing security of supply

Compare the performance of different countries

Assessing the environmental impacts of policiestechnologies Eg Measuring the evolution of efficiencies

To identify area where further effort is needed

In order to make sound policy and business decisions

And also by Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

OUTSIDE OF IEA

Data widely used by

Governments

Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

And for

Assessing security of supply

Comparing the performance of different countries

Assessing the environmental impacts of policiestechnologies

Making sound policy and business decisions

copy OECDIEA 2016

Exercise Preparation

1 Production of electricity and heat

2 Transformation

3 Transformation vs Direct use

4 biofuel Energy vs Non-Energy

5 Liquid biofuels

6 Production vs Capacity

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

copy OECDIEA 2016

Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

copy OECDIEA 2016

biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 23: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

USES OF THE DATA

copy OECDIEA 2016

Renewable Information book

Electronic data files

Energy balances

CO2 emissions

Data support for other IEA divisionsother organizations

Country reviews

PUBLICATIONS

copy OECDIEA 2016

Data used by governments worldwide for Assessing security of supply

Compare the performance of different countries

Assessing the environmental impacts of policiestechnologies Eg Measuring the evolution of efficiencies

To identify area where further effort is needed

In order to make sound policy and business decisions

And also by Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

OUTSIDE OF IEA

Data widely used by

Governments

Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

And for

Assessing security of supply

Comparing the performance of different countries

Assessing the environmental impacts of policiestechnologies

Making sound policy and business decisions

copy OECDIEA 2016

Exercise Preparation

1 Production of electricity and heat

2 Transformation

3 Transformation vs Direct use

4 biofuel Energy vs Non-Energy

5 Liquid biofuels

6 Production vs Capacity

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

copy OECDIEA 2016

Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

copy OECDIEA 2016

biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 24: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

Renewable Information book

Electronic data files

Energy balances

CO2 emissions

Data support for other IEA divisionsother organizations

Country reviews

PUBLICATIONS

copy OECDIEA 2016

Data used by governments worldwide for Assessing security of supply

Compare the performance of different countries

Assessing the environmental impacts of policiestechnologies Eg Measuring the evolution of efficiencies

To identify area where further effort is needed

In order to make sound policy and business decisions

And also by Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

OUTSIDE OF IEA

Data widely used by

Governments

Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

And for

Assessing security of supply

Comparing the performance of different countries

Assessing the environmental impacts of policiestechnologies

Making sound policy and business decisions

copy OECDIEA 2016

Exercise Preparation

1 Production of electricity and heat

2 Transformation

3 Transformation vs Direct use

4 biofuel Energy vs Non-Energy

5 Liquid biofuels

6 Production vs Capacity

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

copy OECDIEA 2016

Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

copy OECDIEA 2016

biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 25: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

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Data used by governments worldwide for Assessing security of supply

Compare the performance of different countries

Assessing the environmental impacts of policiestechnologies Eg Measuring the evolution of efficiencies

To identify area where further effort is needed

In order to make sound policy and business decisions

And also by Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

OUTSIDE OF IEA

Data widely used by

Governments

Academics Researchers

Financial Analysts Investors

Environmentalists Industry association

And for

Assessing security of supply

Comparing the performance of different countries

Assessing the environmental impacts of policiestechnologies

Making sound policy and business decisions

copy OECDIEA 2016

Exercise Preparation

1 Production of electricity and heat

2 Transformation

3 Transformation vs Direct use

4 biofuel Energy vs Non-Energy

5 Liquid biofuels

6 Production vs Capacity

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

copy OECDIEA 2016

Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

copy OECDIEA 2016

biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 26: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

Exercise Preparation

1 Production of electricity and heat

2 Transformation

3 Transformation vs Direct use

4 biofuel Energy vs Non-Energy

5 Liquid biofuels

6 Production vs Capacity

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

copy OECDIEA 2016

Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

copy OECDIEA 2016

biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 27: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

Electricity

Produced

in MWh

Heat

Produced

in TJ

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

copy OECDIEA 2016

Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

copy OECDIEA 2016

biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 28: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

Production of Electricity and Heat

Table 1 Gross Electricity and Heat Production

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

copy OECDIEA 2016

Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

copy OECDIEA 2016

biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 29: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

copy OECDIEA 2016

Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

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biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

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Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 30: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

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Transformation

Table 2 Supply Transformation Energy Sectors and End Use Charcoal production

Input Charcoal

Transformation Plant

Output

Wood Charcoal

Efficiency = Output Input (energy units)

Efficiency of charcoal production plants asymp 25 - 40

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Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

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Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

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biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 31: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

Transformation

Table 2 Supply Transformation Energy Sectors and End Use

Example

bull NCV of charcoal 30 TJkton

bull Charcoal output in TJ 35 kton x 30 TJkton = 1050 TJ

bull Efficiency 1050 TJ3000 TJ = 35

copy OECDIEA 2016

Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

copy OECDIEA 2016

biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 32: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

Transformation vs Direct Use

Solar Thermal

Direct Use

Transformation

Electricity Production

Heat Production (sold to third)

copy OECDIEA 2016

biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 33: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

biofuel Energy vs Non-Energy

Energy use of biofuel (Fuel) is included (eg wood for cooking heating charcoal transformation)

Non-energy use of biofuel is NOT included (eg wood used for furniture animal waste used as fertilizers)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 34: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

Liquid Biofuels

Table 2 Supply Transformation Energy Sectors and End Use Example A country produces 1000 tonnes of a biodiesel blend containing 10 biodiesel and exports half of the production In the Renewables Questionnaire report 100 tonnes of Biodiesel Exports should be reported in the Oil Questionnaire because the it is a blended product

Renewables

Questionnaire

Oil

Questionnaire

Quantities of Biofuel Total Volume

Trade Not blended Blended

Final Consumption Not blended Blended

copy OECDIEA 2016

Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 35: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

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Production vs Capacity

Utilization rate

For Example

Wind electrical capacity = 28 MW

Net annual electricity production = 45000 MWh

Utilization rate = 45000 MWh(28MW 24 hd 365 dy) = 18

Utilization rate should never exceed 100 and depends on the technology and energy source

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 36: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

THANK YOU

RenewAQieaorg WEDieaorg

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 37: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

GEOTHERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Geothermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwwwbgsacukresearchenergygeothermal

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 38: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

SOLAR THERMAL

RENEWABLE ENERGY SOURCES

Energy

Transformation

Solar thermal Energy Capture

Imports

Exports

Direct Use

Electricity Production

Heat Production

CLASSIFICATION

Source

httpwww httpthinkprogressorg

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 39: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households commercial and public services

hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 40: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid biofuel

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biofuel)

Fischer Tropsh from biofuel

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

CLASSIFICATION

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 41: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

Industrial waste

Non-renewable origin (renewable reported as solid

biofuels biogas or liquid biofuels)

Municipal solid wastes

From households industry hospitals

Renewable the portion which is biodegradable

material

Non-Renewable the portion which is non-

biodegradable

Solid biofuels - organic non-fossil material

Wood wood wastes and other solid wastes

Charcoal

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

BACK UP SLIDES

copy OECDIEA 2016

Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

copy OECDIEA 2016

Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

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Biogases

From anaerobic fermentation (ie Landfill gas

Sewage Sludge gas Other Biogases)

From thermal processes

Liquid Biomass

Biogasoline

Bioethanol (ethanol from waste)

Biomethanol (methanol from waste)

BioETBE (ethyl-tertio-butyl-ether) from bioethanol

Biodiesels

Methyl-ester from vegetable or animal

Biodimethylether (dimethylether from biomass)

Fischer Tropsh from biomass

Cold pressed biooil (oil from oil seed)

Other Liquid Biofuels

Bio Jet Kerosenes

COMBUSTIBLE RENEWABLE

AND WASTE FUELS

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Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

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Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

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Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 43: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

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Electricity Only

CHP Heat Only

Main Activity Producer Report all

production and all fuel used

Report all electricity and heat produced and all fuel used

Report all heat produced and all fuel used

Autoproducer

Report all electricity produced and heat sold with corresponding fuel used

Report heat sold and corresponding fuel used

TYPES OF ELECTRICITY AND HEAT PLANTS

BACK UP SLIDES

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Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

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Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 44: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

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Imports

Exports

Primary

Energy

Stock

Draw

Stock

Build

Indigenous Production

Transformation

Final

Consumption

End-Users

Inland Consumption

Secondary

Energy

Supply

COMMODITY BALANCE FORMAT

BACK UP SLIDES

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS

Page 45: Annual renewables presentation - International Energy · PDF fileAnnual Renewables Statistics Energy Data Center ... INTERRELATIONSHIP OF ... Efficiency = Output / Input (energy units)

copy OECDIEA 2016

Transformation Sector

Fuel used for the conversion of primary forms of energy to secondary (eg biogases to electricity)

Fuels used for the transformation to derived energy products (eg wood transformed to charcoal in a charcoal production kiln)

Energy Sector

Fuels consumed by the energy industry to support

fuel extraction (eg mining oil and gas production)

transformation activities (eg consumed in furnaces)

TRANSFORMATION VS ENERGY SECTORS