The 43 rd APEC EWG & Associate Meetings
23
The 43 rd APEC EWG & Associate Meetings LCMT Project Phase 2 Feasibility Study for Low Carbon Development for Samui Island, Thailand March 8, 2012 By Mr.Kamol Tanpipat : Project Manager EEC Engineering Network Co., Ltd. Fortune Town Building, 28 th Floor, Dindaeng, 10400 Thailand LCMT Task Force Meeting
description
The 43 rd APEC EWG & Associate Meetings. LCMT Task Force Meeting. LCMT Project Phase 2 Feasibility Study for Low Carbon Development for Samui Island , Thailand. By Mr.Kamol Tanpipat : Project Manager EEC Engineering Network Co., Ltd. Fortune Town Building, 28 th Floor, - PowerPoint PPT Presentation
Transcript of The 43 rd APEC EWG & Associate Meetings
The 43rd APEC EWG amp Associate Meetings
LCMT Project Phase 2
Feasibility Study for Low Carbon Development forSamui Island Thailand
March 8 2012
By
MrKamol Tanpipat Project Manager
EEC Engineering Network Co Ltd
Fortune Town Building 28th Floor
Dindaeng 10400
Thailand
LCMT Task Force Meeting
August 2011 SAMUI Island has been nominated by government of Thailand as a candidate for the APEC Low Carbon Model Town Project (LCMT Project)
ndash under the supervision of Department of Alternative Energy Development and Efficiency (DEDE) Ministry of Energy
October 2011 SAMUI Island has been selected and approved by the APEC Energy Working Group in the 42nd Meeting of the APEC Energy Working
Group and Associated Meetings in Kaohsiung Chinese Taipei as the selected Low Carbon Town (LCT) development project to conduct the
Feasibility Study (FS) and Policy Review
DEDE aims to development SAMUI and PAGNAN Island to be ldquoGreen Islandrdquo
February 2012 LCMT Phase 2 has been started
SAMUI LCMT Consideration History
Gulf of Thailand
SAMUI Information
Reaching to SAMUIbullBy buses and connecting to SAMUI via Ferry PortsbullBy airplane via SAMUI AirportbullBy personal cars and connecting to SAMUI via Ferry Ports
bull Area 227 km2
bull Population gt50000bull Immigrant 100000bull Tourist 1000000year
SAMUI Informationbull 54 mountain and hilly area in the central part and uninhabitablebull 33 plane area bull 8 beaches bull 5 low land
Climate
bull Tropical weatherbull Averaged temperature 21 oC with bull Highest averaged temperature 37 oC in April and May bull Lowest averaged temperature 21 oC in December and January
Commercial Buildings
bull Hotels and Resorts 7800 rooms approximate floor areas 124800 m2 with the averaged occupancy rate 60bull Stores residence
Economics Values
bull Rely on tourist industrybull The averaged visitors and touristsrsquo expenditure is 100 USDpersonday
LCMT Project Structure
Lead ConsultantEEC Engineering Network (EEC)
International Consultant
(Partnership)NIKKEN SEKKEI (NSRI)
LCMT Project DirectorKecha Thirakomen (EEC)
Project Manager ndash Technical
Unnop Kingkajee (EEC)
Urban Planning ExpertSitt Therakomen (EEC)
Mechanical Engineering Expert
Somjin Disawas (EEC)
Low Energy and Low Carbon Planning Expert
DrShinji Yamamura (NSRI)
Electrical Engineering ExpertSuwichaya Methmanorom
(EEC)
Carbon Analysis ExpertPadungsak
U-nontakarn (BMC)
KEY PERSONNEL
MANAGEMENT
Project Manager - ManagementKamol Tanpipat (BMC)
Traffic Planning ExpertDrKen Kodama (NSRI)
ORGANIZATION
Area and Building Energy Expert
Jirayut Charoenchatchai (BMC)
Environmental ExpertJurairat Makboon (EEC)
Department of Alternative Energy Development and Efficiency
Ministry of EnergyLocal Governments amp related Stakeholders
APECEnergy Working Group
0 Data Collection and information update1 Prepare a Low-Carbon Strategy for SAMUI Island low carbon
town development project1) Develop a high-level vision2) Define the CO2 reduction and environmental targets of
the low-carbon town3) Prepare a Low-Carbon Guideline for categories of low
carbon town design challenges4) Select CO2 reduction measures in each design category
2 Analyze CO2 reductions and costs for the selected design
measures 3 Prepare a report
LCMT Project Development Sequence
Data Collection Planning
Government Agencies
bull Provincial Electricity Authority (PEA) is responsible for electrical supply in the Island 1048707 Provincial Water works
bull Authority (PWA) is responsible for water supply system in the island
bull Municipality of SAMUI Island (MSI)
bull Electricity Generating Authority of Thailand (EGAT)
bull Royal Irrigation Department is responsible for nationrsquos water resources planning
bull Pollution Control Department is responsible for nationalrsquos environmental protection works including wastewater management and solid waste management planning
bull PTT
bull Department of Land Transportation
bull Other local governmental agenciesPrivate Sector
bull Hotels and Resorts
bull Stores
Data collection methods
bull Site Surveybull Interviews with
public and private sector
authoritiesbull Technical
reviewsbull Seminars bull Public Energy
Statisticsbull Etc
IMPLEMENTATION OF COMPREHENSIVE LOW-CARBON DEVELOPMENT MEASURES
- Re-planning Town structure to improve land use - Reduce energy consumption in commercial and residential buildings- Re-structuring transportation system to facilitate tourists and local traveling for fuel economic and introduction of E-vehicle- Enhance energy system (demand side and supply side management)- Enhance waste management system to reduce waste problem- Promote public environment and resources use awareness (Eco Lifestyle)
1st Low Carbon Island in APEC Economy
LCM
T Im
plem
enta
tion
Visi
on
bull Energy Consumption increase drastically
bull Numbers of tourists expected over
1000000 per year
bull Waste management problem
bull Energy Intensity of 183 ktoe thousand million
Baht (2010)
bull More hotels resorts and stores
bull Traffic and inefficient use
SAMUI Conditions
Vision
- Natural resources well preserved and undamaged
- Green environment enhancement (green products)
- Low carbon emission for
Hotels resorts schools houses etc
Transports etc
- Local culture and life-style well mixed with modern life-style (growing economy)
- Improve quality of life with eco-lifestyle
- Tourists satisfaction
Social amp Human Value Environment and Resources Value Economic Value
- High value of land and economy
- Investment attraction
Value Creation
Vision
Emission (Mt CO2e)
Year2030
Long term
2020
Carbon Emission Projection
2012
CO2
KPI
Commercial amp Residential
Transportation
Others
Mid term720
1200
600
Forecasted Emission
40 Reduction
20 Reduction
600 Mt CO2
Energy Demand Growth
1) Town Structure Planning for Low-Carbon Development
2) Low-Carbon Building Planning
3) Area Energy Planning
4) Untapped Energy Use Planning
5) Renewable Energy Use Planning
6) Area Energy Management System (AEMS)
7) Environmental Planning
8) Transportation Planning
9) Conversion to ECO-Life Style
Categorize Low Carbon Areas
-Development of walkable core areas
-Development of comfortable and greenery walk pass
Energy Efficiency
- LED
- High efficiency Chiller
- Hybrid Heat pump (Solar + Electric)
- Solar Cell
Electricity Generation (Cogeneration )
Fuel Switch for Vehicles (NGV)
Natural Gas Pipeline and Stations for NGV
Low Carbon Building Planning Hotels amp Resorts Residential buildings Schools Stores etc
Transportation Planning
E-car
E-bus Networking Development
- Community-Community
- Airport-Community
Area Energy Management
District Cooling
Water
- 3R
- Developed more reservoirs for fresh water
- Implement fresh water from sea water technology
Waste
- 3R
- Waste to Energy from incinerators
- Sorting waste
Ener
gyEn
viro
nmen
t Pla
n
Electricity Generation from Solar Energy (Renewable Energy)
Materials
3R (Reduce Reuse Recycle)
Green Products ndash Energy Label Carbon Label
Smart Grid
Awards
Incentive Programme
Subsidies
Tax reduction
Soft loans
Town Structure Planning for Low-Carbon Development
Untapped Energy Use Planning
Waste Heat recovery from incinerators
Extraction of river power
Supply Side Demand Side
Area Energy Planning
Eco-Life Style
Walking Street and Park
- Solar LED Street light
- Bike lane
BAU (Y2030) Energy Efficiency in
CB
Energy Efficiency in
CB + DC
Carbon Emission (Mt CO2year) (Estimated Figures)
Energy Efficiency in CB + DC +
Renewable Energy
Electricity Generation
(Cogeneration)
Fuel Switch for Vehicles (NGV
+Bio-diesel)
720
1200
Low Carbon Building Planning Transportation Planning
Area Energy Management
Renewable Energy
Untapped Energy Use Planning
Area Energy Planning
E-Bus Networking
Remark
CB = Commercial Buildings ie hotels resorts
DC= District Cooling
40 Carbon Emission
Reduction
Carbon Emission Reduction Target
GIUS Concept Design
Community
Conceptual Design of Green Integrating Utility System (GIUS)Mapping Energy Production and ConsumptionWater and Waste Management
Green Integrating Utility System (GIUS)o Green Integrating Utility System (GIUS) is a concept that integrates all utility services which needed for a community (can be Community Node ndash CN) within one locationo GIUS should be placed near the communityo GIUS include electricity generation city water production waste water treatment and solid waste disposalo District cooling generation system could also be integrated within the GIUS
Chaweng community
Maenam community
Lamai community
Nathoncommunity
Community Node Approach
CHP and Fuel Switching
BiofuelPTT Supply
Low-Carbon Building Planning
bull District cooling generation system could also be integrated within the GIUSbull Sky light and LED for office applicationbull Heat pumpsbull Building Automation Systembull Solar coolingbull Rooftop solar cell or plantations
Green Hotels
bull Building Codebull Near Zero Energy Building
Green Stores+Green Services
bull Government Buildingsbull Commercial Buildingsbull Hospitalsbull Department Stores
Measures
Renewable Energy Use and Untapped Energy
Solar Power MSW
Biogas
Biomass
Ocean Wave
Hydro Power
Wind
Using Smart Grid for SAMUI as the Pilot Smart Grid Island
Improvement of Road
1Road surface2By-pass roads3Increase road networking4Bicycle lane5Improvement of pedestri
an road network
Improvement of Publictransportation
For Residentsbull Public bus networkbull Improvement of bus terminal and bus stops
For Touristsbull Airport amp port access public bus networkbull Improvement of transportation terminalbull Information system for providing the transpo
rtation and tourist attractionsIntroduction of low carbon vehicles and
Supply facilities
1E-Car E-bus E-bike2Bike-sharing3Car-sharing4Charging station (For E-vehicle Bio-fuel vehicle)
Transportation Plans
Environmental Plans
Solid Waste Management
Waste Water ManagementWater Management and Reservoir Management
ECO Lifestyle
bull Bike Lanebull Solar Street Light
bull Use high efficiency appliancesbull Use low carbon productsbull Recycling material use
0 Contract Sign
1 Kick off meeting
2 Update Information and Data Collection
3 Prepare a Low-Carbon Strategy for SAMUI
Island low carbon town development
project
4 Analyze CO2 reductions and costs for the
selected design measures + Initial FS Report
5 Prepare a report
6 Review and Approve
Project Schedule
TasksActivities Date
February 2012
March 2012
April 2012
April 2012
September 2012
October 2012
November 2012
Thank You
For
Your Attention
August 2011 SAMUI Island has been nominated by government of Thailand as a candidate for the APEC Low Carbon Model Town Project (LCMT Project)
ndash under the supervision of Department of Alternative Energy Development and Efficiency (DEDE) Ministry of Energy
October 2011 SAMUI Island has been selected and approved by the APEC Energy Working Group in the 42nd Meeting of the APEC Energy Working
Group and Associated Meetings in Kaohsiung Chinese Taipei as the selected Low Carbon Town (LCT) development project to conduct the
Feasibility Study (FS) and Policy Review
DEDE aims to development SAMUI and PAGNAN Island to be ldquoGreen Islandrdquo
February 2012 LCMT Phase 2 has been started
SAMUI LCMT Consideration History
Gulf of Thailand
SAMUI Information
Reaching to SAMUIbullBy buses and connecting to SAMUI via Ferry PortsbullBy airplane via SAMUI AirportbullBy personal cars and connecting to SAMUI via Ferry Ports
bull Area 227 km2
bull Population gt50000bull Immigrant 100000bull Tourist 1000000year
SAMUI Informationbull 54 mountain and hilly area in the central part and uninhabitablebull 33 plane area bull 8 beaches bull 5 low land
Climate
bull Tropical weatherbull Averaged temperature 21 oC with bull Highest averaged temperature 37 oC in April and May bull Lowest averaged temperature 21 oC in December and January
Commercial Buildings
bull Hotels and Resorts 7800 rooms approximate floor areas 124800 m2 with the averaged occupancy rate 60bull Stores residence
Economics Values
bull Rely on tourist industrybull The averaged visitors and touristsrsquo expenditure is 100 USDpersonday
LCMT Project Structure
Lead ConsultantEEC Engineering Network (EEC)
International Consultant
(Partnership)NIKKEN SEKKEI (NSRI)
LCMT Project DirectorKecha Thirakomen (EEC)
Project Manager ndash Technical
Unnop Kingkajee (EEC)
Urban Planning ExpertSitt Therakomen (EEC)
Mechanical Engineering Expert
Somjin Disawas (EEC)
Low Energy and Low Carbon Planning Expert
DrShinji Yamamura (NSRI)
Electrical Engineering ExpertSuwichaya Methmanorom
(EEC)
Carbon Analysis ExpertPadungsak
U-nontakarn (BMC)
KEY PERSONNEL
MANAGEMENT
Project Manager - ManagementKamol Tanpipat (BMC)
Traffic Planning ExpertDrKen Kodama (NSRI)
ORGANIZATION
Area and Building Energy Expert
Jirayut Charoenchatchai (BMC)
Environmental ExpertJurairat Makboon (EEC)
Department of Alternative Energy Development and Efficiency
Ministry of EnergyLocal Governments amp related Stakeholders
APECEnergy Working Group
0 Data Collection and information update1 Prepare a Low-Carbon Strategy for SAMUI Island low carbon
town development project1) Develop a high-level vision2) Define the CO2 reduction and environmental targets of
the low-carbon town3) Prepare a Low-Carbon Guideline for categories of low
carbon town design challenges4) Select CO2 reduction measures in each design category
2 Analyze CO2 reductions and costs for the selected design
measures 3 Prepare a report
LCMT Project Development Sequence
Data Collection Planning
Government Agencies
bull Provincial Electricity Authority (PEA) is responsible for electrical supply in the Island 1048707 Provincial Water works
bull Authority (PWA) is responsible for water supply system in the island
bull Municipality of SAMUI Island (MSI)
bull Electricity Generating Authority of Thailand (EGAT)
bull Royal Irrigation Department is responsible for nationrsquos water resources planning
bull Pollution Control Department is responsible for nationalrsquos environmental protection works including wastewater management and solid waste management planning
bull PTT
bull Department of Land Transportation
bull Other local governmental agenciesPrivate Sector
bull Hotels and Resorts
bull Stores
Data collection methods
bull Site Surveybull Interviews with
public and private sector
authoritiesbull Technical
reviewsbull Seminars bull Public Energy
Statisticsbull Etc
IMPLEMENTATION OF COMPREHENSIVE LOW-CARBON DEVELOPMENT MEASURES
- Re-planning Town structure to improve land use - Reduce energy consumption in commercial and residential buildings- Re-structuring transportation system to facilitate tourists and local traveling for fuel economic and introduction of E-vehicle- Enhance energy system (demand side and supply side management)- Enhance waste management system to reduce waste problem- Promote public environment and resources use awareness (Eco Lifestyle)
1st Low Carbon Island in APEC Economy
LCM
T Im
plem
enta
tion
Visi
on
bull Energy Consumption increase drastically
bull Numbers of tourists expected over
1000000 per year
bull Waste management problem
bull Energy Intensity of 183 ktoe thousand million
Baht (2010)
bull More hotels resorts and stores
bull Traffic and inefficient use
SAMUI Conditions
Vision
- Natural resources well preserved and undamaged
- Green environment enhancement (green products)
- Low carbon emission for
Hotels resorts schools houses etc
Transports etc
- Local culture and life-style well mixed with modern life-style (growing economy)
- Improve quality of life with eco-lifestyle
- Tourists satisfaction
Social amp Human Value Environment and Resources Value Economic Value
- High value of land and economy
- Investment attraction
Value Creation
Vision
Emission (Mt CO2e)
Year2030
Long term
2020
Carbon Emission Projection
2012
CO2
KPI
Commercial amp Residential
Transportation
Others
Mid term720
1200
600
Forecasted Emission
40 Reduction
20 Reduction
600 Mt CO2
Energy Demand Growth
1) Town Structure Planning for Low-Carbon Development
2) Low-Carbon Building Planning
3) Area Energy Planning
4) Untapped Energy Use Planning
5) Renewable Energy Use Planning
6) Area Energy Management System (AEMS)
7) Environmental Planning
8) Transportation Planning
9) Conversion to ECO-Life Style
Categorize Low Carbon Areas
-Development of walkable core areas
-Development of comfortable and greenery walk pass
Energy Efficiency
- LED
- High efficiency Chiller
- Hybrid Heat pump (Solar + Electric)
- Solar Cell
Electricity Generation (Cogeneration )
Fuel Switch for Vehicles (NGV)
Natural Gas Pipeline and Stations for NGV
Low Carbon Building Planning Hotels amp Resorts Residential buildings Schools Stores etc
Transportation Planning
E-car
E-bus Networking Development
- Community-Community
- Airport-Community
Area Energy Management
District Cooling
Water
- 3R
- Developed more reservoirs for fresh water
- Implement fresh water from sea water technology
Waste
- 3R
- Waste to Energy from incinerators
- Sorting waste
Ener
gyEn
viro
nmen
t Pla
n
Electricity Generation from Solar Energy (Renewable Energy)
Materials
3R (Reduce Reuse Recycle)
Green Products ndash Energy Label Carbon Label
Smart Grid
Awards
Incentive Programme
Subsidies
Tax reduction
Soft loans
Town Structure Planning for Low-Carbon Development
Untapped Energy Use Planning
Waste Heat recovery from incinerators
Extraction of river power
Supply Side Demand Side
Area Energy Planning
Eco-Life Style
Walking Street and Park
- Solar LED Street light
- Bike lane
BAU (Y2030) Energy Efficiency in
CB
Energy Efficiency in
CB + DC
Carbon Emission (Mt CO2year) (Estimated Figures)
Energy Efficiency in CB + DC +
Renewable Energy
Electricity Generation
(Cogeneration)
Fuel Switch for Vehicles (NGV
+Bio-diesel)
720
1200
Low Carbon Building Planning Transportation Planning
Area Energy Management
Renewable Energy
Untapped Energy Use Planning
Area Energy Planning
E-Bus Networking
Remark
CB = Commercial Buildings ie hotels resorts
DC= District Cooling
40 Carbon Emission
Reduction
Carbon Emission Reduction Target
GIUS Concept Design
Community
Conceptual Design of Green Integrating Utility System (GIUS)Mapping Energy Production and ConsumptionWater and Waste Management
Green Integrating Utility System (GIUS)o Green Integrating Utility System (GIUS) is a concept that integrates all utility services which needed for a community (can be Community Node ndash CN) within one locationo GIUS should be placed near the communityo GIUS include electricity generation city water production waste water treatment and solid waste disposalo District cooling generation system could also be integrated within the GIUS
Chaweng community
Maenam community
Lamai community
Nathoncommunity
Community Node Approach
CHP and Fuel Switching
BiofuelPTT Supply
Low-Carbon Building Planning
bull District cooling generation system could also be integrated within the GIUSbull Sky light and LED for office applicationbull Heat pumpsbull Building Automation Systembull Solar coolingbull Rooftop solar cell or plantations
Green Hotels
bull Building Codebull Near Zero Energy Building
Green Stores+Green Services
bull Government Buildingsbull Commercial Buildingsbull Hospitalsbull Department Stores
Measures
Renewable Energy Use and Untapped Energy
Solar Power MSW
Biogas
Biomass
Ocean Wave
Hydro Power
Wind
Using Smart Grid for SAMUI as the Pilot Smart Grid Island
Improvement of Road
1Road surface2By-pass roads3Increase road networking4Bicycle lane5Improvement of pedestri
an road network
Improvement of Publictransportation
For Residentsbull Public bus networkbull Improvement of bus terminal and bus stops
For Touristsbull Airport amp port access public bus networkbull Improvement of transportation terminalbull Information system for providing the transpo
rtation and tourist attractionsIntroduction of low carbon vehicles and
Supply facilities
1E-Car E-bus E-bike2Bike-sharing3Car-sharing4Charging station (For E-vehicle Bio-fuel vehicle)
Transportation Plans
Environmental Plans
Solid Waste Management
Waste Water ManagementWater Management and Reservoir Management
ECO Lifestyle
bull Bike Lanebull Solar Street Light
bull Use high efficiency appliancesbull Use low carbon productsbull Recycling material use
0 Contract Sign
1 Kick off meeting
2 Update Information and Data Collection
3 Prepare a Low-Carbon Strategy for SAMUI
Island low carbon town development
project
4 Analyze CO2 reductions and costs for the
selected design measures + Initial FS Report
5 Prepare a report
6 Review and Approve
Project Schedule
TasksActivities Date
February 2012
March 2012
April 2012
April 2012
September 2012
October 2012
November 2012
Thank You
For
Your Attention
Gulf of Thailand
SAMUI Information
Reaching to SAMUIbullBy buses and connecting to SAMUI via Ferry PortsbullBy airplane via SAMUI AirportbullBy personal cars and connecting to SAMUI via Ferry Ports
bull Area 227 km2
bull Population gt50000bull Immigrant 100000bull Tourist 1000000year
SAMUI Informationbull 54 mountain and hilly area in the central part and uninhabitablebull 33 plane area bull 8 beaches bull 5 low land
Climate
bull Tropical weatherbull Averaged temperature 21 oC with bull Highest averaged temperature 37 oC in April and May bull Lowest averaged temperature 21 oC in December and January
Commercial Buildings
bull Hotels and Resorts 7800 rooms approximate floor areas 124800 m2 with the averaged occupancy rate 60bull Stores residence
Economics Values
bull Rely on tourist industrybull The averaged visitors and touristsrsquo expenditure is 100 USDpersonday
LCMT Project Structure
Lead ConsultantEEC Engineering Network (EEC)
International Consultant
(Partnership)NIKKEN SEKKEI (NSRI)
LCMT Project DirectorKecha Thirakomen (EEC)
Project Manager ndash Technical
Unnop Kingkajee (EEC)
Urban Planning ExpertSitt Therakomen (EEC)
Mechanical Engineering Expert
Somjin Disawas (EEC)
Low Energy and Low Carbon Planning Expert
DrShinji Yamamura (NSRI)
Electrical Engineering ExpertSuwichaya Methmanorom
(EEC)
Carbon Analysis ExpertPadungsak
U-nontakarn (BMC)
KEY PERSONNEL
MANAGEMENT
Project Manager - ManagementKamol Tanpipat (BMC)
Traffic Planning ExpertDrKen Kodama (NSRI)
ORGANIZATION
Area and Building Energy Expert
Jirayut Charoenchatchai (BMC)
Environmental ExpertJurairat Makboon (EEC)
Department of Alternative Energy Development and Efficiency
Ministry of EnergyLocal Governments amp related Stakeholders
APECEnergy Working Group
0 Data Collection and information update1 Prepare a Low-Carbon Strategy for SAMUI Island low carbon
town development project1) Develop a high-level vision2) Define the CO2 reduction and environmental targets of
the low-carbon town3) Prepare a Low-Carbon Guideline for categories of low
carbon town design challenges4) Select CO2 reduction measures in each design category
2 Analyze CO2 reductions and costs for the selected design
measures 3 Prepare a report
LCMT Project Development Sequence
Data Collection Planning
Government Agencies
bull Provincial Electricity Authority (PEA) is responsible for electrical supply in the Island 1048707 Provincial Water works
bull Authority (PWA) is responsible for water supply system in the island
bull Municipality of SAMUI Island (MSI)
bull Electricity Generating Authority of Thailand (EGAT)
bull Royal Irrigation Department is responsible for nationrsquos water resources planning
bull Pollution Control Department is responsible for nationalrsquos environmental protection works including wastewater management and solid waste management planning
bull PTT
bull Department of Land Transportation
bull Other local governmental agenciesPrivate Sector
bull Hotels and Resorts
bull Stores
Data collection methods
bull Site Surveybull Interviews with
public and private sector
authoritiesbull Technical
reviewsbull Seminars bull Public Energy
Statisticsbull Etc
IMPLEMENTATION OF COMPREHENSIVE LOW-CARBON DEVELOPMENT MEASURES
- Re-planning Town structure to improve land use - Reduce energy consumption in commercial and residential buildings- Re-structuring transportation system to facilitate tourists and local traveling for fuel economic and introduction of E-vehicle- Enhance energy system (demand side and supply side management)- Enhance waste management system to reduce waste problem- Promote public environment and resources use awareness (Eco Lifestyle)
1st Low Carbon Island in APEC Economy
LCM
T Im
plem
enta
tion
Visi
on
bull Energy Consumption increase drastically
bull Numbers of tourists expected over
1000000 per year
bull Waste management problem
bull Energy Intensity of 183 ktoe thousand million
Baht (2010)
bull More hotels resorts and stores
bull Traffic and inefficient use
SAMUI Conditions
Vision
- Natural resources well preserved and undamaged
- Green environment enhancement (green products)
- Low carbon emission for
Hotels resorts schools houses etc
Transports etc
- Local culture and life-style well mixed with modern life-style (growing economy)
- Improve quality of life with eco-lifestyle
- Tourists satisfaction
Social amp Human Value Environment and Resources Value Economic Value
- High value of land and economy
- Investment attraction
Value Creation
Vision
Emission (Mt CO2e)
Year2030
Long term
2020
Carbon Emission Projection
2012
CO2
KPI
Commercial amp Residential
Transportation
Others
Mid term720
1200
600
Forecasted Emission
40 Reduction
20 Reduction
600 Mt CO2
Energy Demand Growth
1) Town Structure Planning for Low-Carbon Development
2) Low-Carbon Building Planning
3) Area Energy Planning
4) Untapped Energy Use Planning
5) Renewable Energy Use Planning
6) Area Energy Management System (AEMS)
7) Environmental Planning
8) Transportation Planning
9) Conversion to ECO-Life Style
Categorize Low Carbon Areas
-Development of walkable core areas
-Development of comfortable and greenery walk pass
Energy Efficiency
- LED
- High efficiency Chiller
- Hybrid Heat pump (Solar + Electric)
- Solar Cell
Electricity Generation (Cogeneration )
Fuel Switch for Vehicles (NGV)
Natural Gas Pipeline and Stations for NGV
Low Carbon Building Planning Hotels amp Resorts Residential buildings Schools Stores etc
Transportation Planning
E-car
E-bus Networking Development
- Community-Community
- Airport-Community
Area Energy Management
District Cooling
Water
- 3R
- Developed more reservoirs for fresh water
- Implement fresh water from sea water technology
Waste
- 3R
- Waste to Energy from incinerators
- Sorting waste
Ener
gyEn
viro
nmen
t Pla
n
Electricity Generation from Solar Energy (Renewable Energy)
Materials
3R (Reduce Reuse Recycle)
Green Products ndash Energy Label Carbon Label
Smart Grid
Awards
Incentive Programme
Subsidies
Tax reduction
Soft loans
Town Structure Planning for Low-Carbon Development
Untapped Energy Use Planning
Waste Heat recovery from incinerators
Extraction of river power
Supply Side Demand Side
Area Energy Planning
Eco-Life Style
Walking Street and Park
- Solar LED Street light
- Bike lane
BAU (Y2030) Energy Efficiency in
CB
Energy Efficiency in
CB + DC
Carbon Emission (Mt CO2year) (Estimated Figures)
Energy Efficiency in CB + DC +
Renewable Energy
Electricity Generation
(Cogeneration)
Fuel Switch for Vehicles (NGV
+Bio-diesel)
720
1200
Low Carbon Building Planning Transportation Planning
Area Energy Management
Renewable Energy
Untapped Energy Use Planning
Area Energy Planning
E-Bus Networking
Remark
CB = Commercial Buildings ie hotels resorts
DC= District Cooling
40 Carbon Emission
Reduction
Carbon Emission Reduction Target
GIUS Concept Design
Community
Conceptual Design of Green Integrating Utility System (GIUS)Mapping Energy Production and ConsumptionWater and Waste Management
Green Integrating Utility System (GIUS)o Green Integrating Utility System (GIUS) is a concept that integrates all utility services which needed for a community (can be Community Node ndash CN) within one locationo GIUS should be placed near the communityo GIUS include electricity generation city water production waste water treatment and solid waste disposalo District cooling generation system could also be integrated within the GIUS
Chaweng community
Maenam community
Lamai community
Nathoncommunity
Community Node Approach
CHP and Fuel Switching
BiofuelPTT Supply
Low-Carbon Building Planning
bull District cooling generation system could also be integrated within the GIUSbull Sky light and LED for office applicationbull Heat pumpsbull Building Automation Systembull Solar coolingbull Rooftop solar cell or plantations
Green Hotels
bull Building Codebull Near Zero Energy Building
Green Stores+Green Services
bull Government Buildingsbull Commercial Buildingsbull Hospitalsbull Department Stores
Measures
Renewable Energy Use and Untapped Energy
Solar Power MSW
Biogas
Biomass
Ocean Wave
Hydro Power
Wind
Using Smart Grid for SAMUI as the Pilot Smart Grid Island
Improvement of Road
1Road surface2By-pass roads3Increase road networking4Bicycle lane5Improvement of pedestri
an road network
Improvement of Publictransportation
For Residentsbull Public bus networkbull Improvement of bus terminal and bus stops
For Touristsbull Airport amp port access public bus networkbull Improvement of transportation terminalbull Information system for providing the transpo
rtation and tourist attractionsIntroduction of low carbon vehicles and
Supply facilities
1E-Car E-bus E-bike2Bike-sharing3Car-sharing4Charging station (For E-vehicle Bio-fuel vehicle)
Transportation Plans
Environmental Plans
Solid Waste Management
Waste Water ManagementWater Management and Reservoir Management
ECO Lifestyle
bull Bike Lanebull Solar Street Light
bull Use high efficiency appliancesbull Use low carbon productsbull Recycling material use
0 Contract Sign
1 Kick off meeting
2 Update Information and Data Collection
3 Prepare a Low-Carbon Strategy for SAMUI
Island low carbon town development
project
4 Analyze CO2 reductions and costs for the
selected design measures + Initial FS Report
5 Prepare a report
6 Review and Approve
Project Schedule
TasksActivities Date
February 2012
March 2012
April 2012
April 2012
September 2012
October 2012
November 2012
Thank You
For
Your Attention
bull Area 227 km2
bull Population gt50000bull Immigrant 100000bull Tourist 1000000year
SAMUI Informationbull 54 mountain and hilly area in the central part and uninhabitablebull 33 plane area bull 8 beaches bull 5 low land
Climate
bull Tropical weatherbull Averaged temperature 21 oC with bull Highest averaged temperature 37 oC in April and May bull Lowest averaged temperature 21 oC in December and January
Commercial Buildings
bull Hotels and Resorts 7800 rooms approximate floor areas 124800 m2 with the averaged occupancy rate 60bull Stores residence
Economics Values
bull Rely on tourist industrybull The averaged visitors and touristsrsquo expenditure is 100 USDpersonday
LCMT Project Structure
Lead ConsultantEEC Engineering Network (EEC)
International Consultant
(Partnership)NIKKEN SEKKEI (NSRI)
LCMT Project DirectorKecha Thirakomen (EEC)
Project Manager ndash Technical
Unnop Kingkajee (EEC)
Urban Planning ExpertSitt Therakomen (EEC)
Mechanical Engineering Expert
Somjin Disawas (EEC)
Low Energy and Low Carbon Planning Expert
DrShinji Yamamura (NSRI)
Electrical Engineering ExpertSuwichaya Methmanorom
(EEC)
Carbon Analysis ExpertPadungsak
U-nontakarn (BMC)
KEY PERSONNEL
MANAGEMENT
Project Manager - ManagementKamol Tanpipat (BMC)
Traffic Planning ExpertDrKen Kodama (NSRI)
ORGANIZATION
Area and Building Energy Expert
Jirayut Charoenchatchai (BMC)
Environmental ExpertJurairat Makboon (EEC)
Department of Alternative Energy Development and Efficiency
Ministry of EnergyLocal Governments amp related Stakeholders
APECEnergy Working Group
0 Data Collection and information update1 Prepare a Low-Carbon Strategy for SAMUI Island low carbon
town development project1) Develop a high-level vision2) Define the CO2 reduction and environmental targets of
the low-carbon town3) Prepare a Low-Carbon Guideline for categories of low
carbon town design challenges4) Select CO2 reduction measures in each design category
2 Analyze CO2 reductions and costs for the selected design
measures 3 Prepare a report
LCMT Project Development Sequence
Data Collection Planning
Government Agencies
bull Provincial Electricity Authority (PEA) is responsible for electrical supply in the Island 1048707 Provincial Water works
bull Authority (PWA) is responsible for water supply system in the island
bull Municipality of SAMUI Island (MSI)
bull Electricity Generating Authority of Thailand (EGAT)
bull Royal Irrigation Department is responsible for nationrsquos water resources planning
bull Pollution Control Department is responsible for nationalrsquos environmental protection works including wastewater management and solid waste management planning
bull PTT
bull Department of Land Transportation
bull Other local governmental agenciesPrivate Sector
bull Hotels and Resorts
bull Stores
Data collection methods
bull Site Surveybull Interviews with
public and private sector
authoritiesbull Technical
reviewsbull Seminars bull Public Energy
Statisticsbull Etc
IMPLEMENTATION OF COMPREHENSIVE LOW-CARBON DEVELOPMENT MEASURES
- Re-planning Town structure to improve land use - Reduce energy consumption in commercial and residential buildings- Re-structuring transportation system to facilitate tourists and local traveling for fuel economic and introduction of E-vehicle- Enhance energy system (demand side and supply side management)- Enhance waste management system to reduce waste problem- Promote public environment and resources use awareness (Eco Lifestyle)
1st Low Carbon Island in APEC Economy
LCM
T Im
plem
enta
tion
Visi
on
bull Energy Consumption increase drastically
bull Numbers of tourists expected over
1000000 per year
bull Waste management problem
bull Energy Intensity of 183 ktoe thousand million
Baht (2010)
bull More hotels resorts and stores
bull Traffic and inefficient use
SAMUI Conditions
Vision
- Natural resources well preserved and undamaged
- Green environment enhancement (green products)
- Low carbon emission for
Hotels resorts schools houses etc
Transports etc
- Local culture and life-style well mixed with modern life-style (growing economy)
- Improve quality of life with eco-lifestyle
- Tourists satisfaction
Social amp Human Value Environment and Resources Value Economic Value
- High value of land and economy
- Investment attraction
Value Creation
Vision
Emission (Mt CO2e)
Year2030
Long term
2020
Carbon Emission Projection
2012
CO2
KPI
Commercial amp Residential
Transportation
Others
Mid term720
1200
600
Forecasted Emission
40 Reduction
20 Reduction
600 Mt CO2
Energy Demand Growth
1) Town Structure Planning for Low-Carbon Development
2) Low-Carbon Building Planning
3) Area Energy Planning
4) Untapped Energy Use Planning
5) Renewable Energy Use Planning
6) Area Energy Management System (AEMS)
7) Environmental Planning
8) Transportation Planning
9) Conversion to ECO-Life Style
Categorize Low Carbon Areas
-Development of walkable core areas
-Development of comfortable and greenery walk pass
Energy Efficiency
- LED
- High efficiency Chiller
- Hybrid Heat pump (Solar + Electric)
- Solar Cell
Electricity Generation (Cogeneration )
Fuel Switch for Vehicles (NGV)
Natural Gas Pipeline and Stations for NGV
Low Carbon Building Planning Hotels amp Resorts Residential buildings Schools Stores etc
Transportation Planning
E-car
E-bus Networking Development
- Community-Community
- Airport-Community
Area Energy Management
District Cooling
Water
- 3R
- Developed more reservoirs for fresh water
- Implement fresh water from sea water technology
Waste
- 3R
- Waste to Energy from incinerators
- Sorting waste
Ener
gyEn
viro
nmen
t Pla
n
Electricity Generation from Solar Energy (Renewable Energy)
Materials
3R (Reduce Reuse Recycle)
Green Products ndash Energy Label Carbon Label
Smart Grid
Awards
Incentive Programme
Subsidies
Tax reduction
Soft loans
Town Structure Planning for Low-Carbon Development
Untapped Energy Use Planning
Waste Heat recovery from incinerators
Extraction of river power
Supply Side Demand Side
Area Energy Planning
Eco-Life Style
Walking Street and Park
- Solar LED Street light
- Bike lane
BAU (Y2030) Energy Efficiency in
CB
Energy Efficiency in
CB + DC
Carbon Emission (Mt CO2year) (Estimated Figures)
Energy Efficiency in CB + DC +
Renewable Energy
Electricity Generation
(Cogeneration)
Fuel Switch for Vehicles (NGV
+Bio-diesel)
720
1200
Low Carbon Building Planning Transportation Planning
Area Energy Management
Renewable Energy
Untapped Energy Use Planning
Area Energy Planning
E-Bus Networking
Remark
CB = Commercial Buildings ie hotels resorts
DC= District Cooling
40 Carbon Emission
Reduction
Carbon Emission Reduction Target
GIUS Concept Design
Community
Conceptual Design of Green Integrating Utility System (GIUS)Mapping Energy Production and ConsumptionWater and Waste Management
Green Integrating Utility System (GIUS)o Green Integrating Utility System (GIUS) is a concept that integrates all utility services which needed for a community (can be Community Node ndash CN) within one locationo GIUS should be placed near the communityo GIUS include electricity generation city water production waste water treatment and solid waste disposalo District cooling generation system could also be integrated within the GIUS
Chaweng community
Maenam community
Lamai community
Nathoncommunity
Community Node Approach
CHP and Fuel Switching
BiofuelPTT Supply
Low-Carbon Building Planning
bull District cooling generation system could also be integrated within the GIUSbull Sky light and LED for office applicationbull Heat pumpsbull Building Automation Systembull Solar coolingbull Rooftop solar cell or plantations
Green Hotels
bull Building Codebull Near Zero Energy Building
Green Stores+Green Services
bull Government Buildingsbull Commercial Buildingsbull Hospitalsbull Department Stores
Measures
Renewable Energy Use and Untapped Energy
Solar Power MSW
Biogas
Biomass
Ocean Wave
Hydro Power
Wind
Using Smart Grid for SAMUI as the Pilot Smart Grid Island
Improvement of Road
1Road surface2By-pass roads3Increase road networking4Bicycle lane5Improvement of pedestri
an road network
Improvement of Publictransportation
For Residentsbull Public bus networkbull Improvement of bus terminal and bus stops
For Touristsbull Airport amp port access public bus networkbull Improvement of transportation terminalbull Information system for providing the transpo
rtation and tourist attractionsIntroduction of low carbon vehicles and
Supply facilities
1E-Car E-bus E-bike2Bike-sharing3Car-sharing4Charging station (For E-vehicle Bio-fuel vehicle)
Transportation Plans
Environmental Plans
Solid Waste Management
Waste Water ManagementWater Management and Reservoir Management
ECO Lifestyle
bull Bike Lanebull Solar Street Light
bull Use high efficiency appliancesbull Use low carbon productsbull Recycling material use
0 Contract Sign
1 Kick off meeting
2 Update Information and Data Collection
3 Prepare a Low-Carbon Strategy for SAMUI
Island low carbon town development
project
4 Analyze CO2 reductions and costs for the
selected design measures + Initial FS Report
5 Prepare a report
6 Review and Approve
Project Schedule
TasksActivities Date
February 2012
March 2012
April 2012
April 2012
September 2012
October 2012
November 2012
Thank You
For
Your Attention
LCMT Project Structure
Lead ConsultantEEC Engineering Network (EEC)
International Consultant
(Partnership)NIKKEN SEKKEI (NSRI)
LCMT Project DirectorKecha Thirakomen (EEC)
Project Manager ndash Technical
Unnop Kingkajee (EEC)
Urban Planning ExpertSitt Therakomen (EEC)
Mechanical Engineering Expert
Somjin Disawas (EEC)
Low Energy and Low Carbon Planning Expert
DrShinji Yamamura (NSRI)
Electrical Engineering ExpertSuwichaya Methmanorom
(EEC)
Carbon Analysis ExpertPadungsak
U-nontakarn (BMC)
KEY PERSONNEL
MANAGEMENT
Project Manager - ManagementKamol Tanpipat (BMC)
Traffic Planning ExpertDrKen Kodama (NSRI)
ORGANIZATION
Area and Building Energy Expert
Jirayut Charoenchatchai (BMC)
Environmental ExpertJurairat Makboon (EEC)
Department of Alternative Energy Development and Efficiency
Ministry of EnergyLocal Governments amp related Stakeholders
APECEnergy Working Group
0 Data Collection and information update1 Prepare a Low-Carbon Strategy for SAMUI Island low carbon
town development project1) Develop a high-level vision2) Define the CO2 reduction and environmental targets of
the low-carbon town3) Prepare a Low-Carbon Guideline for categories of low
carbon town design challenges4) Select CO2 reduction measures in each design category
2 Analyze CO2 reductions and costs for the selected design
measures 3 Prepare a report
LCMT Project Development Sequence
Data Collection Planning
Government Agencies
bull Provincial Electricity Authority (PEA) is responsible for electrical supply in the Island 1048707 Provincial Water works
bull Authority (PWA) is responsible for water supply system in the island
bull Municipality of SAMUI Island (MSI)
bull Electricity Generating Authority of Thailand (EGAT)
bull Royal Irrigation Department is responsible for nationrsquos water resources planning
bull Pollution Control Department is responsible for nationalrsquos environmental protection works including wastewater management and solid waste management planning
bull PTT
bull Department of Land Transportation
bull Other local governmental agenciesPrivate Sector
bull Hotels and Resorts
bull Stores
Data collection methods
bull Site Surveybull Interviews with
public and private sector
authoritiesbull Technical
reviewsbull Seminars bull Public Energy
Statisticsbull Etc
IMPLEMENTATION OF COMPREHENSIVE LOW-CARBON DEVELOPMENT MEASURES
- Re-planning Town structure to improve land use - Reduce energy consumption in commercial and residential buildings- Re-structuring transportation system to facilitate tourists and local traveling for fuel economic and introduction of E-vehicle- Enhance energy system (demand side and supply side management)- Enhance waste management system to reduce waste problem- Promote public environment and resources use awareness (Eco Lifestyle)
1st Low Carbon Island in APEC Economy
LCM
T Im
plem
enta
tion
Visi
on
bull Energy Consumption increase drastically
bull Numbers of tourists expected over
1000000 per year
bull Waste management problem
bull Energy Intensity of 183 ktoe thousand million
Baht (2010)
bull More hotels resorts and stores
bull Traffic and inefficient use
SAMUI Conditions
Vision
- Natural resources well preserved and undamaged
- Green environment enhancement (green products)
- Low carbon emission for
Hotels resorts schools houses etc
Transports etc
- Local culture and life-style well mixed with modern life-style (growing economy)
- Improve quality of life with eco-lifestyle
- Tourists satisfaction
Social amp Human Value Environment and Resources Value Economic Value
- High value of land and economy
- Investment attraction
Value Creation
Vision
Emission (Mt CO2e)
Year2030
Long term
2020
Carbon Emission Projection
2012
CO2
KPI
Commercial amp Residential
Transportation
Others
Mid term720
1200
600
Forecasted Emission
40 Reduction
20 Reduction
600 Mt CO2
Energy Demand Growth
1) Town Structure Planning for Low-Carbon Development
2) Low-Carbon Building Planning
3) Area Energy Planning
4) Untapped Energy Use Planning
5) Renewable Energy Use Planning
6) Area Energy Management System (AEMS)
7) Environmental Planning
8) Transportation Planning
9) Conversion to ECO-Life Style
Categorize Low Carbon Areas
-Development of walkable core areas
-Development of comfortable and greenery walk pass
Energy Efficiency
- LED
- High efficiency Chiller
- Hybrid Heat pump (Solar + Electric)
- Solar Cell
Electricity Generation (Cogeneration )
Fuel Switch for Vehicles (NGV)
Natural Gas Pipeline and Stations for NGV
Low Carbon Building Planning Hotels amp Resorts Residential buildings Schools Stores etc
Transportation Planning
E-car
E-bus Networking Development
- Community-Community
- Airport-Community
Area Energy Management
District Cooling
Water
- 3R
- Developed more reservoirs for fresh water
- Implement fresh water from sea water technology
Waste
- 3R
- Waste to Energy from incinerators
- Sorting waste
Ener
gyEn
viro
nmen
t Pla
n
Electricity Generation from Solar Energy (Renewable Energy)
Materials
3R (Reduce Reuse Recycle)
Green Products ndash Energy Label Carbon Label
Smart Grid
Awards
Incentive Programme
Subsidies
Tax reduction
Soft loans
Town Structure Planning for Low-Carbon Development
Untapped Energy Use Planning
Waste Heat recovery from incinerators
Extraction of river power
Supply Side Demand Side
Area Energy Planning
Eco-Life Style
Walking Street and Park
- Solar LED Street light
- Bike lane
BAU (Y2030) Energy Efficiency in
CB
Energy Efficiency in
CB + DC
Carbon Emission (Mt CO2year) (Estimated Figures)
Energy Efficiency in CB + DC +
Renewable Energy
Electricity Generation
(Cogeneration)
Fuel Switch for Vehicles (NGV
+Bio-diesel)
720
1200
Low Carbon Building Planning Transportation Planning
Area Energy Management
Renewable Energy
Untapped Energy Use Planning
Area Energy Planning
E-Bus Networking
Remark
CB = Commercial Buildings ie hotels resorts
DC= District Cooling
40 Carbon Emission
Reduction
Carbon Emission Reduction Target
GIUS Concept Design
Community
Conceptual Design of Green Integrating Utility System (GIUS)Mapping Energy Production and ConsumptionWater and Waste Management
Green Integrating Utility System (GIUS)o Green Integrating Utility System (GIUS) is a concept that integrates all utility services which needed for a community (can be Community Node ndash CN) within one locationo GIUS should be placed near the communityo GIUS include electricity generation city water production waste water treatment and solid waste disposalo District cooling generation system could also be integrated within the GIUS
Chaweng community
Maenam community
Lamai community
Nathoncommunity
Community Node Approach
CHP and Fuel Switching
BiofuelPTT Supply
Low-Carbon Building Planning
bull District cooling generation system could also be integrated within the GIUSbull Sky light and LED for office applicationbull Heat pumpsbull Building Automation Systembull Solar coolingbull Rooftop solar cell or plantations
Green Hotels
bull Building Codebull Near Zero Energy Building
Green Stores+Green Services
bull Government Buildingsbull Commercial Buildingsbull Hospitalsbull Department Stores
Measures
Renewable Energy Use and Untapped Energy
Solar Power MSW
Biogas
Biomass
Ocean Wave
Hydro Power
Wind
Using Smart Grid for SAMUI as the Pilot Smart Grid Island
Improvement of Road
1Road surface2By-pass roads3Increase road networking4Bicycle lane5Improvement of pedestri
an road network
Improvement of Publictransportation
For Residentsbull Public bus networkbull Improvement of bus terminal and bus stops
For Touristsbull Airport amp port access public bus networkbull Improvement of transportation terminalbull Information system for providing the transpo
rtation and tourist attractionsIntroduction of low carbon vehicles and
Supply facilities
1E-Car E-bus E-bike2Bike-sharing3Car-sharing4Charging station (For E-vehicle Bio-fuel vehicle)
Transportation Plans
Environmental Plans
Solid Waste Management
Waste Water ManagementWater Management and Reservoir Management
ECO Lifestyle
bull Bike Lanebull Solar Street Light
bull Use high efficiency appliancesbull Use low carbon productsbull Recycling material use
0 Contract Sign
1 Kick off meeting
2 Update Information and Data Collection
3 Prepare a Low-Carbon Strategy for SAMUI
Island low carbon town development
project
4 Analyze CO2 reductions and costs for the
selected design measures + Initial FS Report
5 Prepare a report
6 Review and Approve
Project Schedule
TasksActivities Date
February 2012
March 2012
April 2012
April 2012
September 2012
October 2012
November 2012
Thank You
For
Your Attention
0 Data Collection and information update1 Prepare a Low-Carbon Strategy for SAMUI Island low carbon
town development project1) Develop a high-level vision2) Define the CO2 reduction and environmental targets of
the low-carbon town3) Prepare a Low-Carbon Guideline for categories of low
carbon town design challenges4) Select CO2 reduction measures in each design category
2 Analyze CO2 reductions and costs for the selected design
measures 3 Prepare a report
LCMT Project Development Sequence
Data Collection Planning
Government Agencies
bull Provincial Electricity Authority (PEA) is responsible for electrical supply in the Island 1048707 Provincial Water works
bull Authority (PWA) is responsible for water supply system in the island
bull Municipality of SAMUI Island (MSI)
bull Electricity Generating Authority of Thailand (EGAT)
bull Royal Irrigation Department is responsible for nationrsquos water resources planning
bull Pollution Control Department is responsible for nationalrsquos environmental protection works including wastewater management and solid waste management planning
bull PTT
bull Department of Land Transportation
bull Other local governmental agenciesPrivate Sector
bull Hotels and Resorts
bull Stores
Data collection methods
bull Site Surveybull Interviews with
public and private sector
authoritiesbull Technical
reviewsbull Seminars bull Public Energy
Statisticsbull Etc
IMPLEMENTATION OF COMPREHENSIVE LOW-CARBON DEVELOPMENT MEASURES
- Re-planning Town structure to improve land use - Reduce energy consumption in commercial and residential buildings- Re-structuring transportation system to facilitate tourists and local traveling for fuel economic and introduction of E-vehicle- Enhance energy system (demand side and supply side management)- Enhance waste management system to reduce waste problem- Promote public environment and resources use awareness (Eco Lifestyle)
1st Low Carbon Island in APEC Economy
LCM
T Im
plem
enta
tion
Visi
on
bull Energy Consumption increase drastically
bull Numbers of tourists expected over
1000000 per year
bull Waste management problem
bull Energy Intensity of 183 ktoe thousand million
Baht (2010)
bull More hotels resorts and stores
bull Traffic and inefficient use
SAMUI Conditions
Vision
- Natural resources well preserved and undamaged
- Green environment enhancement (green products)
- Low carbon emission for
Hotels resorts schools houses etc
Transports etc
- Local culture and life-style well mixed with modern life-style (growing economy)
- Improve quality of life with eco-lifestyle
- Tourists satisfaction
Social amp Human Value Environment and Resources Value Economic Value
- High value of land and economy
- Investment attraction
Value Creation
Vision
Emission (Mt CO2e)
Year2030
Long term
2020
Carbon Emission Projection
2012
CO2
KPI
Commercial amp Residential
Transportation
Others
Mid term720
1200
600
Forecasted Emission
40 Reduction
20 Reduction
600 Mt CO2
Energy Demand Growth
1) Town Structure Planning for Low-Carbon Development
2) Low-Carbon Building Planning
3) Area Energy Planning
4) Untapped Energy Use Planning
5) Renewable Energy Use Planning
6) Area Energy Management System (AEMS)
7) Environmental Planning
8) Transportation Planning
9) Conversion to ECO-Life Style
Categorize Low Carbon Areas
-Development of walkable core areas
-Development of comfortable and greenery walk pass
Energy Efficiency
- LED
- High efficiency Chiller
- Hybrid Heat pump (Solar + Electric)
- Solar Cell
Electricity Generation (Cogeneration )
Fuel Switch for Vehicles (NGV)
Natural Gas Pipeline and Stations for NGV
Low Carbon Building Planning Hotels amp Resorts Residential buildings Schools Stores etc
Transportation Planning
E-car
E-bus Networking Development
- Community-Community
- Airport-Community
Area Energy Management
District Cooling
Water
- 3R
- Developed more reservoirs for fresh water
- Implement fresh water from sea water technology
Waste
- 3R
- Waste to Energy from incinerators
- Sorting waste
Ener
gyEn
viro
nmen
t Pla
n
Electricity Generation from Solar Energy (Renewable Energy)
Materials
3R (Reduce Reuse Recycle)
Green Products ndash Energy Label Carbon Label
Smart Grid
Awards
Incentive Programme
Subsidies
Tax reduction
Soft loans
Town Structure Planning for Low-Carbon Development
Untapped Energy Use Planning
Waste Heat recovery from incinerators
Extraction of river power
Supply Side Demand Side
Area Energy Planning
Eco-Life Style
Walking Street and Park
- Solar LED Street light
- Bike lane
BAU (Y2030) Energy Efficiency in
CB
Energy Efficiency in
CB + DC
Carbon Emission (Mt CO2year) (Estimated Figures)
Energy Efficiency in CB + DC +
Renewable Energy
Electricity Generation
(Cogeneration)
Fuel Switch for Vehicles (NGV
+Bio-diesel)
720
1200
Low Carbon Building Planning Transportation Planning
Area Energy Management
Renewable Energy
Untapped Energy Use Planning
Area Energy Planning
E-Bus Networking
Remark
CB = Commercial Buildings ie hotels resorts
DC= District Cooling
40 Carbon Emission
Reduction
Carbon Emission Reduction Target
GIUS Concept Design
Community
Conceptual Design of Green Integrating Utility System (GIUS)Mapping Energy Production and ConsumptionWater and Waste Management
Green Integrating Utility System (GIUS)o Green Integrating Utility System (GIUS) is a concept that integrates all utility services which needed for a community (can be Community Node ndash CN) within one locationo GIUS should be placed near the communityo GIUS include electricity generation city water production waste water treatment and solid waste disposalo District cooling generation system could also be integrated within the GIUS
Chaweng community
Maenam community
Lamai community
Nathoncommunity
Community Node Approach
CHP and Fuel Switching
BiofuelPTT Supply
Low-Carbon Building Planning
bull District cooling generation system could also be integrated within the GIUSbull Sky light and LED for office applicationbull Heat pumpsbull Building Automation Systembull Solar coolingbull Rooftop solar cell or plantations
Green Hotels
bull Building Codebull Near Zero Energy Building
Green Stores+Green Services
bull Government Buildingsbull Commercial Buildingsbull Hospitalsbull Department Stores
Measures
Renewable Energy Use and Untapped Energy
Solar Power MSW
Biogas
Biomass
Ocean Wave
Hydro Power
Wind
Using Smart Grid for SAMUI as the Pilot Smart Grid Island
Improvement of Road
1Road surface2By-pass roads3Increase road networking4Bicycle lane5Improvement of pedestri
an road network
Improvement of Publictransportation
For Residentsbull Public bus networkbull Improvement of bus terminal and bus stops
For Touristsbull Airport amp port access public bus networkbull Improvement of transportation terminalbull Information system for providing the transpo
rtation and tourist attractionsIntroduction of low carbon vehicles and
Supply facilities
1E-Car E-bus E-bike2Bike-sharing3Car-sharing4Charging station (For E-vehicle Bio-fuel vehicle)
Transportation Plans
Environmental Plans
Solid Waste Management
Waste Water ManagementWater Management and Reservoir Management
ECO Lifestyle
bull Bike Lanebull Solar Street Light
bull Use high efficiency appliancesbull Use low carbon productsbull Recycling material use
0 Contract Sign
1 Kick off meeting
2 Update Information and Data Collection
3 Prepare a Low-Carbon Strategy for SAMUI
Island low carbon town development
project
4 Analyze CO2 reductions and costs for the
selected design measures + Initial FS Report
5 Prepare a report
6 Review and Approve
Project Schedule
TasksActivities Date
February 2012
March 2012
April 2012
April 2012
September 2012
October 2012
November 2012
Thank You
For
Your Attention
Data Collection Planning
Government Agencies
bull Provincial Electricity Authority (PEA) is responsible for electrical supply in the Island 1048707 Provincial Water works
bull Authority (PWA) is responsible for water supply system in the island
bull Municipality of SAMUI Island (MSI)
bull Electricity Generating Authority of Thailand (EGAT)
bull Royal Irrigation Department is responsible for nationrsquos water resources planning
bull Pollution Control Department is responsible for nationalrsquos environmental protection works including wastewater management and solid waste management planning
bull PTT
bull Department of Land Transportation
bull Other local governmental agenciesPrivate Sector
bull Hotels and Resorts
bull Stores
Data collection methods
bull Site Surveybull Interviews with
public and private sector
authoritiesbull Technical
reviewsbull Seminars bull Public Energy
Statisticsbull Etc
IMPLEMENTATION OF COMPREHENSIVE LOW-CARBON DEVELOPMENT MEASURES
- Re-planning Town structure to improve land use - Reduce energy consumption in commercial and residential buildings- Re-structuring transportation system to facilitate tourists and local traveling for fuel economic and introduction of E-vehicle- Enhance energy system (demand side and supply side management)- Enhance waste management system to reduce waste problem- Promote public environment and resources use awareness (Eco Lifestyle)
1st Low Carbon Island in APEC Economy
LCM
T Im
plem
enta
tion
Visi
on
bull Energy Consumption increase drastically
bull Numbers of tourists expected over
1000000 per year
bull Waste management problem
bull Energy Intensity of 183 ktoe thousand million
Baht (2010)
bull More hotels resorts and stores
bull Traffic and inefficient use
SAMUI Conditions
Vision
- Natural resources well preserved and undamaged
- Green environment enhancement (green products)
- Low carbon emission for
Hotels resorts schools houses etc
Transports etc
- Local culture and life-style well mixed with modern life-style (growing economy)
- Improve quality of life with eco-lifestyle
- Tourists satisfaction
Social amp Human Value Environment and Resources Value Economic Value
- High value of land and economy
- Investment attraction
Value Creation
Vision
Emission (Mt CO2e)
Year2030
Long term
2020
Carbon Emission Projection
2012
CO2
KPI
Commercial amp Residential
Transportation
Others
Mid term720
1200
600
Forecasted Emission
40 Reduction
20 Reduction
600 Mt CO2
Energy Demand Growth
1) Town Structure Planning for Low-Carbon Development
2) Low-Carbon Building Planning
3) Area Energy Planning
4) Untapped Energy Use Planning
5) Renewable Energy Use Planning
6) Area Energy Management System (AEMS)
7) Environmental Planning
8) Transportation Planning
9) Conversion to ECO-Life Style
Categorize Low Carbon Areas
-Development of walkable core areas
-Development of comfortable and greenery walk pass
Energy Efficiency
- LED
- High efficiency Chiller
- Hybrid Heat pump (Solar + Electric)
- Solar Cell
Electricity Generation (Cogeneration )
Fuel Switch for Vehicles (NGV)
Natural Gas Pipeline and Stations for NGV
Low Carbon Building Planning Hotels amp Resorts Residential buildings Schools Stores etc
Transportation Planning
E-car
E-bus Networking Development
- Community-Community
- Airport-Community
Area Energy Management
District Cooling
Water
- 3R
- Developed more reservoirs for fresh water
- Implement fresh water from sea water technology
Waste
- 3R
- Waste to Energy from incinerators
- Sorting waste
Ener
gyEn
viro
nmen
t Pla
n
Electricity Generation from Solar Energy (Renewable Energy)
Materials
3R (Reduce Reuse Recycle)
Green Products ndash Energy Label Carbon Label
Smart Grid
Awards
Incentive Programme
Subsidies
Tax reduction
Soft loans
Town Structure Planning for Low-Carbon Development
Untapped Energy Use Planning
Waste Heat recovery from incinerators
Extraction of river power
Supply Side Demand Side
Area Energy Planning
Eco-Life Style
Walking Street and Park
- Solar LED Street light
- Bike lane
BAU (Y2030) Energy Efficiency in
CB
Energy Efficiency in
CB + DC
Carbon Emission (Mt CO2year) (Estimated Figures)
Energy Efficiency in CB + DC +
Renewable Energy
Electricity Generation
(Cogeneration)
Fuel Switch for Vehicles (NGV
+Bio-diesel)
720
1200
Low Carbon Building Planning Transportation Planning
Area Energy Management
Renewable Energy
Untapped Energy Use Planning
Area Energy Planning
E-Bus Networking
Remark
CB = Commercial Buildings ie hotels resorts
DC= District Cooling
40 Carbon Emission
Reduction
Carbon Emission Reduction Target
GIUS Concept Design
Community
Conceptual Design of Green Integrating Utility System (GIUS)Mapping Energy Production and ConsumptionWater and Waste Management
Green Integrating Utility System (GIUS)o Green Integrating Utility System (GIUS) is a concept that integrates all utility services which needed for a community (can be Community Node ndash CN) within one locationo GIUS should be placed near the communityo GIUS include electricity generation city water production waste water treatment and solid waste disposalo District cooling generation system could also be integrated within the GIUS
Chaweng community
Maenam community
Lamai community
Nathoncommunity
Community Node Approach
CHP and Fuel Switching
BiofuelPTT Supply
Low-Carbon Building Planning
bull District cooling generation system could also be integrated within the GIUSbull Sky light and LED for office applicationbull Heat pumpsbull Building Automation Systembull Solar coolingbull Rooftop solar cell or plantations
Green Hotels
bull Building Codebull Near Zero Energy Building
Green Stores+Green Services
bull Government Buildingsbull Commercial Buildingsbull Hospitalsbull Department Stores
Measures
Renewable Energy Use and Untapped Energy
Solar Power MSW
Biogas
Biomass
Ocean Wave
Hydro Power
Wind
Using Smart Grid for SAMUI as the Pilot Smart Grid Island
Improvement of Road
1Road surface2By-pass roads3Increase road networking4Bicycle lane5Improvement of pedestri
an road network
Improvement of Publictransportation
For Residentsbull Public bus networkbull Improvement of bus terminal and bus stops
For Touristsbull Airport amp port access public bus networkbull Improvement of transportation terminalbull Information system for providing the transpo
rtation and tourist attractionsIntroduction of low carbon vehicles and
Supply facilities
1E-Car E-bus E-bike2Bike-sharing3Car-sharing4Charging station (For E-vehicle Bio-fuel vehicle)
Transportation Plans
Environmental Plans
Solid Waste Management
Waste Water ManagementWater Management and Reservoir Management
ECO Lifestyle
bull Bike Lanebull Solar Street Light
bull Use high efficiency appliancesbull Use low carbon productsbull Recycling material use
0 Contract Sign
1 Kick off meeting
2 Update Information and Data Collection
3 Prepare a Low-Carbon Strategy for SAMUI
Island low carbon town development
project
4 Analyze CO2 reductions and costs for the
selected design measures + Initial FS Report
5 Prepare a report
6 Review and Approve
Project Schedule
TasksActivities Date
February 2012
March 2012
April 2012
April 2012
September 2012
October 2012
November 2012
Thank You
For
Your Attention
IMPLEMENTATION OF COMPREHENSIVE LOW-CARBON DEVELOPMENT MEASURES
- Re-planning Town structure to improve land use - Reduce energy consumption in commercial and residential buildings- Re-structuring transportation system to facilitate tourists and local traveling for fuel economic and introduction of E-vehicle- Enhance energy system (demand side and supply side management)- Enhance waste management system to reduce waste problem- Promote public environment and resources use awareness (Eco Lifestyle)
1st Low Carbon Island in APEC Economy
LCM
T Im
plem
enta
tion
Visi
on
bull Energy Consumption increase drastically
bull Numbers of tourists expected over
1000000 per year
bull Waste management problem
bull Energy Intensity of 183 ktoe thousand million
Baht (2010)
bull More hotels resorts and stores
bull Traffic and inefficient use
SAMUI Conditions
Vision
- Natural resources well preserved and undamaged
- Green environment enhancement (green products)
- Low carbon emission for
Hotels resorts schools houses etc
Transports etc
- Local culture and life-style well mixed with modern life-style (growing economy)
- Improve quality of life with eco-lifestyle
- Tourists satisfaction
Social amp Human Value Environment and Resources Value Economic Value
- High value of land and economy
- Investment attraction
Value Creation
Vision
Emission (Mt CO2e)
Year2030
Long term
2020
Carbon Emission Projection
2012
CO2
KPI
Commercial amp Residential
Transportation
Others
Mid term720
1200
600
Forecasted Emission
40 Reduction
20 Reduction
600 Mt CO2
Energy Demand Growth
1) Town Structure Planning for Low-Carbon Development
2) Low-Carbon Building Planning
3) Area Energy Planning
4) Untapped Energy Use Planning
5) Renewable Energy Use Planning
6) Area Energy Management System (AEMS)
7) Environmental Planning
8) Transportation Planning
9) Conversion to ECO-Life Style
Categorize Low Carbon Areas
-Development of walkable core areas
-Development of comfortable and greenery walk pass
Energy Efficiency
- LED
- High efficiency Chiller
- Hybrid Heat pump (Solar + Electric)
- Solar Cell
Electricity Generation (Cogeneration )
Fuel Switch for Vehicles (NGV)
Natural Gas Pipeline and Stations for NGV
Low Carbon Building Planning Hotels amp Resorts Residential buildings Schools Stores etc
Transportation Planning
E-car
E-bus Networking Development
- Community-Community
- Airport-Community
Area Energy Management
District Cooling
Water
- 3R
- Developed more reservoirs for fresh water
- Implement fresh water from sea water technology
Waste
- 3R
- Waste to Energy from incinerators
- Sorting waste
Ener
gyEn
viro
nmen
t Pla
n
Electricity Generation from Solar Energy (Renewable Energy)
Materials
3R (Reduce Reuse Recycle)
Green Products ndash Energy Label Carbon Label
Smart Grid
Awards
Incentive Programme
Subsidies
Tax reduction
Soft loans
Town Structure Planning for Low-Carbon Development
Untapped Energy Use Planning
Waste Heat recovery from incinerators
Extraction of river power
Supply Side Demand Side
Area Energy Planning
Eco-Life Style
Walking Street and Park
- Solar LED Street light
- Bike lane
BAU (Y2030) Energy Efficiency in
CB
Energy Efficiency in
CB + DC
Carbon Emission (Mt CO2year) (Estimated Figures)
Energy Efficiency in CB + DC +
Renewable Energy
Electricity Generation
(Cogeneration)
Fuel Switch for Vehicles (NGV
+Bio-diesel)
720
1200
Low Carbon Building Planning Transportation Planning
Area Energy Management
Renewable Energy
Untapped Energy Use Planning
Area Energy Planning
E-Bus Networking
Remark
CB = Commercial Buildings ie hotels resorts
DC= District Cooling
40 Carbon Emission
Reduction
Carbon Emission Reduction Target
GIUS Concept Design
Community
Conceptual Design of Green Integrating Utility System (GIUS)Mapping Energy Production and ConsumptionWater and Waste Management
Green Integrating Utility System (GIUS)o Green Integrating Utility System (GIUS) is a concept that integrates all utility services which needed for a community (can be Community Node ndash CN) within one locationo GIUS should be placed near the communityo GIUS include electricity generation city water production waste water treatment and solid waste disposalo District cooling generation system could also be integrated within the GIUS
Chaweng community
Maenam community
Lamai community
Nathoncommunity
Community Node Approach
CHP and Fuel Switching
BiofuelPTT Supply
Low-Carbon Building Planning
bull District cooling generation system could also be integrated within the GIUSbull Sky light and LED for office applicationbull Heat pumpsbull Building Automation Systembull Solar coolingbull Rooftop solar cell or plantations
Green Hotels
bull Building Codebull Near Zero Energy Building
Green Stores+Green Services
bull Government Buildingsbull Commercial Buildingsbull Hospitalsbull Department Stores
Measures
Renewable Energy Use and Untapped Energy
Solar Power MSW
Biogas
Biomass
Ocean Wave
Hydro Power
Wind
Using Smart Grid for SAMUI as the Pilot Smart Grid Island
Improvement of Road
1Road surface2By-pass roads3Increase road networking4Bicycle lane5Improvement of pedestri
an road network
Improvement of Publictransportation
For Residentsbull Public bus networkbull Improvement of bus terminal and bus stops
For Touristsbull Airport amp port access public bus networkbull Improvement of transportation terminalbull Information system for providing the transpo
rtation and tourist attractionsIntroduction of low carbon vehicles and
Supply facilities
1E-Car E-bus E-bike2Bike-sharing3Car-sharing4Charging station (For E-vehicle Bio-fuel vehicle)
Transportation Plans
Environmental Plans
Solid Waste Management
Waste Water ManagementWater Management and Reservoir Management
ECO Lifestyle
bull Bike Lanebull Solar Street Light
bull Use high efficiency appliancesbull Use low carbon productsbull Recycling material use
0 Contract Sign
1 Kick off meeting
2 Update Information and Data Collection
3 Prepare a Low-Carbon Strategy for SAMUI
Island low carbon town development
project
4 Analyze CO2 reductions and costs for the
selected design measures + Initial FS Report
5 Prepare a report
6 Review and Approve
Project Schedule
TasksActivities Date
February 2012
March 2012
April 2012
April 2012
September 2012
October 2012
November 2012
Thank You
For
Your Attention
- Natural resources well preserved and undamaged
- Green environment enhancement (green products)
- Low carbon emission for
Hotels resorts schools houses etc
Transports etc
- Local culture and life-style well mixed with modern life-style (growing economy)
- Improve quality of life with eco-lifestyle
- Tourists satisfaction
Social amp Human Value Environment and Resources Value Economic Value
- High value of land and economy
- Investment attraction
Value Creation
Vision
Emission (Mt CO2e)
Year2030
Long term
2020
Carbon Emission Projection
2012
CO2
KPI
Commercial amp Residential
Transportation
Others
Mid term720
1200
600
Forecasted Emission
40 Reduction
20 Reduction
600 Mt CO2
Energy Demand Growth
1) Town Structure Planning for Low-Carbon Development
2) Low-Carbon Building Planning
3) Area Energy Planning
4) Untapped Energy Use Planning
5) Renewable Energy Use Planning
6) Area Energy Management System (AEMS)
7) Environmental Planning
8) Transportation Planning
9) Conversion to ECO-Life Style
Categorize Low Carbon Areas
-Development of walkable core areas
-Development of comfortable and greenery walk pass
Energy Efficiency
- LED
- High efficiency Chiller
- Hybrid Heat pump (Solar + Electric)
- Solar Cell
Electricity Generation (Cogeneration )
Fuel Switch for Vehicles (NGV)
Natural Gas Pipeline and Stations for NGV
Low Carbon Building Planning Hotels amp Resorts Residential buildings Schools Stores etc
Transportation Planning
E-car
E-bus Networking Development
- Community-Community
- Airport-Community
Area Energy Management
District Cooling
Water
- 3R
- Developed more reservoirs for fresh water
- Implement fresh water from sea water technology
Waste
- 3R
- Waste to Energy from incinerators
- Sorting waste
Ener
gyEn
viro
nmen
t Pla
n
Electricity Generation from Solar Energy (Renewable Energy)
Materials
3R (Reduce Reuse Recycle)
Green Products ndash Energy Label Carbon Label
Smart Grid
Awards
Incentive Programme
Subsidies
Tax reduction
Soft loans
Town Structure Planning for Low-Carbon Development
Untapped Energy Use Planning
Waste Heat recovery from incinerators
Extraction of river power
Supply Side Demand Side
Area Energy Planning
Eco-Life Style
Walking Street and Park
- Solar LED Street light
- Bike lane
BAU (Y2030) Energy Efficiency in
CB
Energy Efficiency in
CB + DC
Carbon Emission (Mt CO2year) (Estimated Figures)
Energy Efficiency in CB + DC +
Renewable Energy
Electricity Generation
(Cogeneration)
Fuel Switch for Vehicles (NGV
+Bio-diesel)
720
1200
Low Carbon Building Planning Transportation Planning
Area Energy Management
Renewable Energy
Untapped Energy Use Planning
Area Energy Planning
E-Bus Networking
Remark
CB = Commercial Buildings ie hotels resorts
DC= District Cooling
40 Carbon Emission
Reduction
Carbon Emission Reduction Target
GIUS Concept Design
Community
Conceptual Design of Green Integrating Utility System (GIUS)Mapping Energy Production and ConsumptionWater and Waste Management
Green Integrating Utility System (GIUS)o Green Integrating Utility System (GIUS) is a concept that integrates all utility services which needed for a community (can be Community Node ndash CN) within one locationo GIUS should be placed near the communityo GIUS include electricity generation city water production waste water treatment and solid waste disposalo District cooling generation system could also be integrated within the GIUS
Chaweng community
Maenam community
Lamai community
Nathoncommunity
Community Node Approach
CHP and Fuel Switching
BiofuelPTT Supply
Low-Carbon Building Planning
bull District cooling generation system could also be integrated within the GIUSbull Sky light and LED for office applicationbull Heat pumpsbull Building Automation Systembull Solar coolingbull Rooftop solar cell or plantations
Green Hotels
bull Building Codebull Near Zero Energy Building
Green Stores+Green Services
bull Government Buildingsbull Commercial Buildingsbull Hospitalsbull Department Stores
Measures
Renewable Energy Use and Untapped Energy
Solar Power MSW
Biogas
Biomass
Ocean Wave
Hydro Power
Wind
Using Smart Grid for SAMUI as the Pilot Smart Grid Island
Improvement of Road
1Road surface2By-pass roads3Increase road networking4Bicycle lane5Improvement of pedestri
an road network
Improvement of Publictransportation
For Residentsbull Public bus networkbull Improvement of bus terminal and bus stops
For Touristsbull Airport amp port access public bus networkbull Improvement of transportation terminalbull Information system for providing the transpo
rtation and tourist attractionsIntroduction of low carbon vehicles and
Supply facilities
1E-Car E-bus E-bike2Bike-sharing3Car-sharing4Charging station (For E-vehicle Bio-fuel vehicle)
Transportation Plans
Environmental Plans
Solid Waste Management
Waste Water ManagementWater Management and Reservoir Management
ECO Lifestyle
bull Bike Lanebull Solar Street Light
bull Use high efficiency appliancesbull Use low carbon productsbull Recycling material use
0 Contract Sign
1 Kick off meeting
2 Update Information and Data Collection
3 Prepare a Low-Carbon Strategy for SAMUI
Island low carbon town development
project
4 Analyze CO2 reductions and costs for the
selected design measures + Initial FS Report
5 Prepare a report
6 Review and Approve
Project Schedule
TasksActivities Date
February 2012
March 2012
April 2012
April 2012
September 2012
October 2012
November 2012
Thank You
For
Your Attention
Emission (Mt CO2e)
Year2030
Long term
2020
Carbon Emission Projection
2012
CO2
KPI
Commercial amp Residential
Transportation
Others
Mid term720
1200
600
Forecasted Emission
40 Reduction
20 Reduction
600 Mt CO2
Energy Demand Growth
1) Town Structure Planning for Low-Carbon Development
2) Low-Carbon Building Planning
3) Area Energy Planning
4) Untapped Energy Use Planning
5) Renewable Energy Use Planning
6) Area Energy Management System (AEMS)
7) Environmental Planning
8) Transportation Planning
9) Conversion to ECO-Life Style
Categorize Low Carbon Areas
-Development of walkable core areas
-Development of comfortable and greenery walk pass
Energy Efficiency
- LED
- High efficiency Chiller
- Hybrid Heat pump (Solar + Electric)
- Solar Cell
Electricity Generation (Cogeneration )
Fuel Switch for Vehicles (NGV)
Natural Gas Pipeline and Stations for NGV
Low Carbon Building Planning Hotels amp Resorts Residential buildings Schools Stores etc
Transportation Planning
E-car
E-bus Networking Development
- Community-Community
- Airport-Community
Area Energy Management
District Cooling
Water
- 3R
- Developed more reservoirs for fresh water
- Implement fresh water from sea water technology
Waste
- 3R
- Waste to Energy from incinerators
- Sorting waste
Ener
gyEn
viro
nmen
t Pla
n
Electricity Generation from Solar Energy (Renewable Energy)
Materials
3R (Reduce Reuse Recycle)
Green Products ndash Energy Label Carbon Label
Smart Grid
Awards
Incentive Programme
Subsidies
Tax reduction
Soft loans
Town Structure Planning for Low-Carbon Development
Untapped Energy Use Planning
Waste Heat recovery from incinerators
Extraction of river power
Supply Side Demand Side
Area Energy Planning
Eco-Life Style
Walking Street and Park
- Solar LED Street light
- Bike lane
BAU (Y2030) Energy Efficiency in
CB
Energy Efficiency in
CB + DC
Carbon Emission (Mt CO2year) (Estimated Figures)
Energy Efficiency in CB + DC +
Renewable Energy
Electricity Generation
(Cogeneration)
Fuel Switch for Vehicles (NGV
+Bio-diesel)
720
1200
Low Carbon Building Planning Transportation Planning
Area Energy Management
Renewable Energy
Untapped Energy Use Planning
Area Energy Planning
E-Bus Networking
Remark
CB = Commercial Buildings ie hotels resorts
DC= District Cooling
40 Carbon Emission
Reduction
Carbon Emission Reduction Target
GIUS Concept Design
Community
Conceptual Design of Green Integrating Utility System (GIUS)Mapping Energy Production and ConsumptionWater and Waste Management
Green Integrating Utility System (GIUS)o Green Integrating Utility System (GIUS) is a concept that integrates all utility services which needed for a community (can be Community Node ndash CN) within one locationo GIUS should be placed near the communityo GIUS include electricity generation city water production waste water treatment and solid waste disposalo District cooling generation system could also be integrated within the GIUS
Chaweng community
Maenam community
Lamai community
Nathoncommunity
Community Node Approach
CHP and Fuel Switching
BiofuelPTT Supply
Low-Carbon Building Planning
bull District cooling generation system could also be integrated within the GIUSbull Sky light and LED for office applicationbull Heat pumpsbull Building Automation Systembull Solar coolingbull Rooftop solar cell or plantations
Green Hotels
bull Building Codebull Near Zero Energy Building
Green Stores+Green Services
bull Government Buildingsbull Commercial Buildingsbull Hospitalsbull Department Stores
Measures
Renewable Energy Use and Untapped Energy
Solar Power MSW
Biogas
Biomass
Ocean Wave
Hydro Power
Wind
Using Smart Grid for SAMUI as the Pilot Smart Grid Island
Improvement of Road
1Road surface2By-pass roads3Increase road networking4Bicycle lane5Improvement of pedestri
an road network
Improvement of Publictransportation
For Residentsbull Public bus networkbull Improvement of bus terminal and bus stops
For Touristsbull Airport amp port access public bus networkbull Improvement of transportation terminalbull Information system for providing the transpo
rtation and tourist attractionsIntroduction of low carbon vehicles and
Supply facilities
1E-Car E-bus E-bike2Bike-sharing3Car-sharing4Charging station (For E-vehicle Bio-fuel vehicle)
Transportation Plans
Environmental Plans
Solid Waste Management
Waste Water ManagementWater Management and Reservoir Management
ECO Lifestyle
bull Bike Lanebull Solar Street Light
bull Use high efficiency appliancesbull Use low carbon productsbull Recycling material use
0 Contract Sign
1 Kick off meeting
2 Update Information and Data Collection
3 Prepare a Low-Carbon Strategy for SAMUI
Island low carbon town development
project
4 Analyze CO2 reductions and costs for the
selected design measures + Initial FS Report
5 Prepare a report
6 Review and Approve
Project Schedule
TasksActivities Date
February 2012
March 2012
April 2012
April 2012
September 2012
October 2012
November 2012
Thank You
For
Your Attention
1) Town Structure Planning for Low-Carbon Development
2) Low-Carbon Building Planning
3) Area Energy Planning
4) Untapped Energy Use Planning
5) Renewable Energy Use Planning
6) Area Energy Management System (AEMS)
7) Environmental Planning
8) Transportation Planning
9) Conversion to ECO-Life Style
Categorize Low Carbon Areas
-Development of walkable core areas
-Development of comfortable and greenery walk pass
Energy Efficiency
- LED
- High efficiency Chiller
- Hybrid Heat pump (Solar + Electric)
- Solar Cell
Electricity Generation (Cogeneration )
Fuel Switch for Vehicles (NGV)
Natural Gas Pipeline and Stations for NGV
Low Carbon Building Planning Hotels amp Resorts Residential buildings Schools Stores etc
Transportation Planning
E-car
E-bus Networking Development
- Community-Community
- Airport-Community
Area Energy Management
District Cooling
Water
- 3R
- Developed more reservoirs for fresh water
- Implement fresh water from sea water technology
Waste
- 3R
- Waste to Energy from incinerators
- Sorting waste
Ener
gyEn
viro
nmen
t Pla
n
Electricity Generation from Solar Energy (Renewable Energy)
Materials
3R (Reduce Reuse Recycle)
Green Products ndash Energy Label Carbon Label
Smart Grid
Awards
Incentive Programme
Subsidies
Tax reduction
Soft loans
Town Structure Planning for Low-Carbon Development
Untapped Energy Use Planning
Waste Heat recovery from incinerators
Extraction of river power
Supply Side Demand Side
Area Energy Planning
Eco-Life Style
Walking Street and Park
- Solar LED Street light
- Bike lane
BAU (Y2030) Energy Efficiency in
CB
Energy Efficiency in
CB + DC
Carbon Emission (Mt CO2year) (Estimated Figures)
Energy Efficiency in CB + DC +
Renewable Energy
Electricity Generation
(Cogeneration)
Fuel Switch for Vehicles (NGV
+Bio-diesel)
720
1200
Low Carbon Building Planning Transportation Planning
Area Energy Management
Renewable Energy
Untapped Energy Use Planning
Area Energy Planning
E-Bus Networking
Remark
CB = Commercial Buildings ie hotels resorts
DC= District Cooling
40 Carbon Emission
Reduction
Carbon Emission Reduction Target
GIUS Concept Design
Community
Conceptual Design of Green Integrating Utility System (GIUS)Mapping Energy Production and ConsumptionWater and Waste Management
Green Integrating Utility System (GIUS)o Green Integrating Utility System (GIUS) is a concept that integrates all utility services which needed for a community (can be Community Node ndash CN) within one locationo GIUS should be placed near the communityo GIUS include electricity generation city water production waste water treatment and solid waste disposalo District cooling generation system could also be integrated within the GIUS
Chaweng community
Maenam community
Lamai community
Nathoncommunity
Community Node Approach
CHP and Fuel Switching
BiofuelPTT Supply
Low-Carbon Building Planning
bull District cooling generation system could also be integrated within the GIUSbull Sky light and LED for office applicationbull Heat pumpsbull Building Automation Systembull Solar coolingbull Rooftop solar cell or plantations
Green Hotels
bull Building Codebull Near Zero Energy Building
Green Stores+Green Services
bull Government Buildingsbull Commercial Buildingsbull Hospitalsbull Department Stores
Measures
Renewable Energy Use and Untapped Energy
Solar Power MSW
Biogas
Biomass
Ocean Wave
Hydro Power
Wind
Using Smart Grid for SAMUI as the Pilot Smart Grid Island
Improvement of Road
1Road surface2By-pass roads3Increase road networking4Bicycle lane5Improvement of pedestri
an road network
Improvement of Publictransportation
For Residentsbull Public bus networkbull Improvement of bus terminal and bus stops
For Touristsbull Airport amp port access public bus networkbull Improvement of transportation terminalbull Information system for providing the transpo
rtation and tourist attractionsIntroduction of low carbon vehicles and
Supply facilities
1E-Car E-bus E-bike2Bike-sharing3Car-sharing4Charging station (For E-vehicle Bio-fuel vehicle)
Transportation Plans
Environmental Plans
Solid Waste Management
Waste Water ManagementWater Management and Reservoir Management
ECO Lifestyle
bull Bike Lanebull Solar Street Light
bull Use high efficiency appliancesbull Use low carbon productsbull Recycling material use
0 Contract Sign
1 Kick off meeting
2 Update Information and Data Collection
3 Prepare a Low-Carbon Strategy for SAMUI
Island low carbon town development
project
4 Analyze CO2 reductions and costs for the
selected design measures + Initial FS Report
5 Prepare a report
6 Review and Approve
Project Schedule
TasksActivities Date
February 2012
March 2012
April 2012
April 2012
September 2012
October 2012
November 2012
Thank You
For
Your Attention
-Development of walkable core areas
-Development of comfortable and greenery walk pass
Energy Efficiency
- LED
- High efficiency Chiller
- Hybrid Heat pump (Solar + Electric)
- Solar Cell
Electricity Generation (Cogeneration )
Fuel Switch for Vehicles (NGV)
Natural Gas Pipeline and Stations for NGV
Low Carbon Building Planning Hotels amp Resorts Residential buildings Schools Stores etc
Transportation Planning
E-car
E-bus Networking Development
- Community-Community
- Airport-Community
Area Energy Management
District Cooling
Water
- 3R
- Developed more reservoirs for fresh water
- Implement fresh water from sea water technology
Waste
- 3R
- Waste to Energy from incinerators
- Sorting waste
Ener
gyEn
viro
nmen
t Pla
n
Electricity Generation from Solar Energy (Renewable Energy)
Materials
3R (Reduce Reuse Recycle)
Green Products ndash Energy Label Carbon Label
Smart Grid
Awards
Incentive Programme
Subsidies
Tax reduction
Soft loans
Town Structure Planning for Low-Carbon Development
Untapped Energy Use Planning
Waste Heat recovery from incinerators
Extraction of river power
Supply Side Demand Side
Area Energy Planning
Eco-Life Style
Walking Street and Park
- Solar LED Street light
- Bike lane
BAU (Y2030) Energy Efficiency in
CB
Energy Efficiency in
CB + DC
Carbon Emission (Mt CO2year) (Estimated Figures)
Energy Efficiency in CB + DC +
Renewable Energy
Electricity Generation
(Cogeneration)
Fuel Switch for Vehicles (NGV
+Bio-diesel)
720
1200
Low Carbon Building Planning Transportation Planning
Area Energy Management
Renewable Energy
Untapped Energy Use Planning
Area Energy Planning
E-Bus Networking
Remark
CB = Commercial Buildings ie hotels resorts
DC= District Cooling
40 Carbon Emission
Reduction
Carbon Emission Reduction Target
GIUS Concept Design
Community
Conceptual Design of Green Integrating Utility System (GIUS)Mapping Energy Production and ConsumptionWater and Waste Management
Green Integrating Utility System (GIUS)o Green Integrating Utility System (GIUS) is a concept that integrates all utility services which needed for a community (can be Community Node ndash CN) within one locationo GIUS should be placed near the communityo GIUS include electricity generation city water production waste water treatment and solid waste disposalo District cooling generation system could also be integrated within the GIUS
Chaweng community
Maenam community
Lamai community
Nathoncommunity
Community Node Approach
CHP and Fuel Switching
BiofuelPTT Supply
Low-Carbon Building Planning
bull District cooling generation system could also be integrated within the GIUSbull Sky light and LED for office applicationbull Heat pumpsbull Building Automation Systembull Solar coolingbull Rooftop solar cell or plantations
Green Hotels
bull Building Codebull Near Zero Energy Building
Green Stores+Green Services
bull Government Buildingsbull Commercial Buildingsbull Hospitalsbull Department Stores
Measures
Renewable Energy Use and Untapped Energy
Solar Power MSW
Biogas
Biomass
Ocean Wave
Hydro Power
Wind
Using Smart Grid for SAMUI as the Pilot Smart Grid Island
Improvement of Road
1Road surface2By-pass roads3Increase road networking4Bicycle lane5Improvement of pedestri
an road network
Improvement of Publictransportation
For Residentsbull Public bus networkbull Improvement of bus terminal and bus stops
For Touristsbull Airport amp port access public bus networkbull Improvement of transportation terminalbull Information system for providing the transpo
rtation and tourist attractionsIntroduction of low carbon vehicles and
Supply facilities
1E-Car E-bus E-bike2Bike-sharing3Car-sharing4Charging station (For E-vehicle Bio-fuel vehicle)
Transportation Plans
Environmental Plans
Solid Waste Management
Waste Water ManagementWater Management and Reservoir Management
ECO Lifestyle
bull Bike Lanebull Solar Street Light
bull Use high efficiency appliancesbull Use low carbon productsbull Recycling material use
0 Contract Sign
1 Kick off meeting
2 Update Information and Data Collection
3 Prepare a Low-Carbon Strategy for SAMUI
Island low carbon town development
project
4 Analyze CO2 reductions and costs for the
selected design measures + Initial FS Report
5 Prepare a report
6 Review and Approve
Project Schedule
TasksActivities Date
February 2012
March 2012
April 2012
April 2012
September 2012
October 2012
November 2012
Thank You
For
Your Attention
BAU (Y2030) Energy Efficiency in
CB
Energy Efficiency in
CB + DC
Carbon Emission (Mt CO2year) (Estimated Figures)
Energy Efficiency in CB + DC +
Renewable Energy
Electricity Generation
(Cogeneration)
Fuel Switch for Vehicles (NGV
+Bio-diesel)
720
1200
Low Carbon Building Planning Transportation Planning
Area Energy Management
Renewable Energy
Untapped Energy Use Planning
Area Energy Planning
E-Bus Networking
Remark
CB = Commercial Buildings ie hotels resorts
DC= District Cooling
40 Carbon Emission
Reduction
Carbon Emission Reduction Target
GIUS Concept Design
Community
Conceptual Design of Green Integrating Utility System (GIUS)Mapping Energy Production and ConsumptionWater and Waste Management
Green Integrating Utility System (GIUS)o Green Integrating Utility System (GIUS) is a concept that integrates all utility services which needed for a community (can be Community Node ndash CN) within one locationo GIUS should be placed near the communityo GIUS include electricity generation city water production waste water treatment and solid waste disposalo District cooling generation system could also be integrated within the GIUS
Chaweng community
Maenam community
Lamai community
Nathoncommunity
Community Node Approach
CHP and Fuel Switching
BiofuelPTT Supply
Low-Carbon Building Planning
bull District cooling generation system could also be integrated within the GIUSbull Sky light and LED for office applicationbull Heat pumpsbull Building Automation Systembull Solar coolingbull Rooftop solar cell or plantations
Green Hotels
bull Building Codebull Near Zero Energy Building
Green Stores+Green Services
bull Government Buildingsbull Commercial Buildingsbull Hospitalsbull Department Stores
Measures
Renewable Energy Use and Untapped Energy
Solar Power MSW
Biogas
Biomass
Ocean Wave
Hydro Power
Wind
Using Smart Grid for SAMUI as the Pilot Smart Grid Island
Improvement of Road
1Road surface2By-pass roads3Increase road networking4Bicycle lane5Improvement of pedestri
an road network
Improvement of Publictransportation
For Residentsbull Public bus networkbull Improvement of bus terminal and bus stops
For Touristsbull Airport amp port access public bus networkbull Improvement of transportation terminalbull Information system for providing the transpo
rtation and tourist attractionsIntroduction of low carbon vehicles and
Supply facilities
1E-Car E-bus E-bike2Bike-sharing3Car-sharing4Charging station (For E-vehicle Bio-fuel vehicle)
Transportation Plans
Environmental Plans
Solid Waste Management
Waste Water ManagementWater Management and Reservoir Management
ECO Lifestyle
bull Bike Lanebull Solar Street Light
bull Use high efficiency appliancesbull Use low carbon productsbull Recycling material use
0 Contract Sign
1 Kick off meeting
2 Update Information and Data Collection
3 Prepare a Low-Carbon Strategy for SAMUI
Island low carbon town development
project
4 Analyze CO2 reductions and costs for the
selected design measures + Initial FS Report
5 Prepare a report
6 Review and Approve
Project Schedule
TasksActivities Date
February 2012
March 2012
April 2012
April 2012
September 2012
October 2012
November 2012
Thank You
For
Your Attention
GIUS Concept Design
Community
Conceptual Design of Green Integrating Utility System (GIUS)Mapping Energy Production and ConsumptionWater and Waste Management
Green Integrating Utility System (GIUS)o Green Integrating Utility System (GIUS) is a concept that integrates all utility services which needed for a community (can be Community Node ndash CN) within one locationo GIUS should be placed near the communityo GIUS include electricity generation city water production waste water treatment and solid waste disposalo District cooling generation system could also be integrated within the GIUS
Chaweng community
Maenam community
Lamai community
Nathoncommunity
Community Node Approach
CHP and Fuel Switching
BiofuelPTT Supply
Low-Carbon Building Planning
bull District cooling generation system could also be integrated within the GIUSbull Sky light and LED for office applicationbull Heat pumpsbull Building Automation Systembull Solar coolingbull Rooftop solar cell or plantations
Green Hotels
bull Building Codebull Near Zero Energy Building
Green Stores+Green Services
bull Government Buildingsbull Commercial Buildingsbull Hospitalsbull Department Stores
Measures
Renewable Energy Use and Untapped Energy
Solar Power MSW
Biogas
Biomass
Ocean Wave
Hydro Power
Wind
Using Smart Grid for SAMUI as the Pilot Smart Grid Island
Improvement of Road
1Road surface2By-pass roads3Increase road networking4Bicycle lane5Improvement of pedestri
an road network
Improvement of Publictransportation
For Residentsbull Public bus networkbull Improvement of bus terminal and bus stops
For Touristsbull Airport amp port access public bus networkbull Improvement of transportation terminalbull Information system for providing the transpo
rtation and tourist attractionsIntroduction of low carbon vehicles and
Supply facilities
1E-Car E-bus E-bike2Bike-sharing3Car-sharing4Charging station (For E-vehicle Bio-fuel vehicle)
Transportation Plans
Environmental Plans
Solid Waste Management
Waste Water ManagementWater Management and Reservoir Management
ECO Lifestyle
bull Bike Lanebull Solar Street Light
bull Use high efficiency appliancesbull Use low carbon productsbull Recycling material use
0 Contract Sign
1 Kick off meeting
2 Update Information and Data Collection
3 Prepare a Low-Carbon Strategy for SAMUI
Island low carbon town development
project
4 Analyze CO2 reductions and costs for the
selected design measures + Initial FS Report
5 Prepare a report
6 Review and Approve
Project Schedule
TasksActivities Date
February 2012
March 2012
April 2012
April 2012
September 2012
October 2012
November 2012
Thank You
For
Your Attention
Chaweng community
Maenam community
Lamai community
Nathoncommunity
Community Node Approach
CHP and Fuel Switching
BiofuelPTT Supply
Low-Carbon Building Planning
bull District cooling generation system could also be integrated within the GIUSbull Sky light and LED for office applicationbull Heat pumpsbull Building Automation Systembull Solar coolingbull Rooftop solar cell or plantations
Green Hotels
bull Building Codebull Near Zero Energy Building
Green Stores+Green Services
bull Government Buildingsbull Commercial Buildingsbull Hospitalsbull Department Stores
Measures
Renewable Energy Use and Untapped Energy
Solar Power MSW
Biogas
Biomass
Ocean Wave
Hydro Power
Wind
Using Smart Grid for SAMUI as the Pilot Smart Grid Island
Improvement of Road
1Road surface2By-pass roads3Increase road networking4Bicycle lane5Improvement of pedestri
an road network
Improvement of Publictransportation
For Residentsbull Public bus networkbull Improvement of bus terminal and bus stops
For Touristsbull Airport amp port access public bus networkbull Improvement of transportation terminalbull Information system for providing the transpo
rtation and tourist attractionsIntroduction of low carbon vehicles and
Supply facilities
1E-Car E-bus E-bike2Bike-sharing3Car-sharing4Charging station (For E-vehicle Bio-fuel vehicle)
Transportation Plans
Environmental Plans
Solid Waste Management
Waste Water ManagementWater Management and Reservoir Management
ECO Lifestyle
bull Bike Lanebull Solar Street Light
bull Use high efficiency appliancesbull Use low carbon productsbull Recycling material use
0 Contract Sign
1 Kick off meeting
2 Update Information and Data Collection
3 Prepare a Low-Carbon Strategy for SAMUI
Island low carbon town development
project
4 Analyze CO2 reductions and costs for the
selected design measures + Initial FS Report
5 Prepare a report
6 Review and Approve
Project Schedule
TasksActivities Date
February 2012
March 2012
April 2012
April 2012
September 2012
October 2012
November 2012
Thank You
For
Your Attention
CHP and Fuel Switching
BiofuelPTT Supply
Low-Carbon Building Planning
bull District cooling generation system could also be integrated within the GIUSbull Sky light and LED for office applicationbull Heat pumpsbull Building Automation Systembull Solar coolingbull Rooftop solar cell or plantations
Green Hotels
bull Building Codebull Near Zero Energy Building
Green Stores+Green Services
bull Government Buildingsbull Commercial Buildingsbull Hospitalsbull Department Stores
Measures
Renewable Energy Use and Untapped Energy
Solar Power MSW
Biogas
Biomass
Ocean Wave
Hydro Power
Wind
Using Smart Grid for SAMUI as the Pilot Smart Grid Island
Improvement of Road
1Road surface2By-pass roads3Increase road networking4Bicycle lane5Improvement of pedestri
an road network
Improvement of Publictransportation
For Residentsbull Public bus networkbull Improvement of bus terminal and bus stops
For Touristsbull Airport amp port access public bus networkbull Improvement of transportation terminalbull Information system for providing the transpo
rtation and tourist attractionsIntroduction of low carbon vehicles and
Supply facilities
1E-Car E-bus E-bike2Bike-sharing3Car-sharing4Charging station (For E-vehicle Bio-fuel vehicle)
Transportation Plans
Environmental Plans
Solid Waste Management
Waste Water ManagementWater Management and Reservoir Management
ECO Lifestyle
bull Bike Lanebull Solar Street Light
bull Use high efficiency appliancesbull Use low carbon productsbull Recycling material use
0 Contract Sign
1 Kick off meeting
2 Update Information and Data Collection
3 Prepare a Low-Carbon Strategy for SAMUI
Island low carbon town development
project
4 Analyze CO2 reductions and costs for the
selected design measures + Initial FS Report
5 Prepare a report
6 Review and Approve
Project Schedule
TasksActivities Date
February 2012
March 2012
April 2012
April 2012
September 2012
October 2012
November 2012
Thank You
For
Your Attention
Low-Carbon Building Planning
bull District cooling generation system could also be integrated within the GIUSbull Sky light and LED for office applicationbull Heat pumpsbull Building Automation Systembull Solar coolingbull Rooftop solar cell or plantations
Green Hotels
bull Building Codebull Near Zero Energy Building
Green Stores+Green Services
bull Government Buildingsbull Commercial Buildingsbull Hospitalsbull Department Stores
Measures
Renewable Energy Use and Untapped Energy
Solar Power MSW
Biogas
Biomass
Ocean Wave
Hydro Power
Wind
Using Smart Grid for SAMUI as the Pilot Smart Grid Island
Improvement of Road
1Road surface2By-pass roads3Increase road networking4Bicycle lane5Improvement of pedestri
an road network
Improvement of Publictransportation
For Residentsbull Public bus networkbull Improvement of bus terminal and bus stops
For Touristsbull Airport amp port access public bus networkbull Improvement of transportation terminalbull Information system for providing the transpo
rtation and tourist attractionsIntroduction of low carbon vehicles and
Supply facilities
1E-Car E-bus E-bike2Bike-sharing3Car-sharing4Charging station (For E-vehicle Bio-fuel vehicle)
Transportation Plans
Environmental Plans
Solid Waste Management
Waste Water ManagementWater Management and Reservoir Management
ECO Lifestyle
bull Bike Lanebull Solar Street Light
bull Use high efficiency appliancesbull Use low carbon productsbull Recycling material use
0 Contract Sign
1 Kick off meeting
2 Update Information and Data Collection
3 Prepare a Low-Carbon Strategy for SAMUI
Island low carbon town development
project
4 Analyze CO2 reductions and costs for the
selected design measures + Initial FS Report
5 Prepare a report
6 Review and Approve
Project Schedule
TasksActivities Date
February 2012
March 2012
April 2012
April 2012
September 2012
October 2012
November 2012
Thank You
For
Your Attention
Renewable Energy Use and Untapped Energy
Solar Power MSW
Biogas
Biomass
Ocean Wave
Hydro Power
Wind
Using Smart Grid for SAMUI as the Pilot Smart Grid Island
Improvement of Road
1Road surface2By-pass roads3Increase road networking4Bicycle lane5Improvement of pedestri
an road network
Improvement of Publictransportation
For Residentsbull Public bus networkbull Improvement of bus terminal and bus stops
For Touristsbull Airport amp port access public bus networkbull Improvement of transportation terminalbull Information system for providing the transpo
rtation and tourist attractionsIntroduction of low carbon vehicles and
Supply facilities
1E-Car E-bus E-bike2Bike-sharing3Car-sharing4Charging station (For E-vehicle Bio-fuel vehicle)
Transportation Plans
Environmental Plans
Solid Waste Management
Waste Water ManagementWater Management and Reservoir Management
ECO Lifestyle
bull Bike Lanebull Solar Street Light
bull Use high efficiency appliancesbull Use low carbon productsbull Recycling material use
0 Contract Sign
1 Kick off meeting
2 Update Information and Data Collection
3 Prepare a Low-Carbon Strategy for SAMUI
Island low carbon town development
project
4 Analyze CO2 reductions and costs for the
selected design measures + Initial FS Report
5 Prepare a report
6 Review and Approve
Project Schedule
TasksActivities Date
February 2012
March 2012
April 2012
April 2012
September 2012
October 2012
November 2012
Thank You
For
Your Attention
Improvement of Road
1Road surface2By-pass roads3Increase road networking4Bicycle lane5Improvement of pedestri
an road network
Improvement of Publictransportation
For Residentsbull Public bus networkbull Improvement of bus terminal and bus stops
For Touristsbull Airport amp port access public bus networkbull Improvement of transportation terminalbull Information system for providing the transpo
rtation and tourist attractionsIntroduction of low carbon vehicles and
Supply facilities
1E-Car E-bus E-bike2Bike-sharing3Car-sharing4Charging station (For E-vehicle Bio-fuel vehicle)
Transportation Plans
Environmental Plans
Solid Waste Management
Waste Water ManagementWater Management and Reservoir Management
ECO Lifestyle
bull Bike Lanebull Solar Street Light
bull Use high efficiency appliancesbull Use low carbon productsbull Recycling material use
0 Contract Sign
1 Kick off meeting
2 Update Information and Data Collection
3 Prepare a Low-Carbon Strategy for SAMUI
Island low carbon town development
project
4 Analyze CO2 reductions and costs for the
selected design measures + Initial FS Report
5 Prepare a report
6 Review and Approve
Project Schedule
TasksActivities Date
February 2012
March 2012
April 2012
April 2012
September 2012
October 2012
November 2012
Thank You
For
Your Attention
Environmental Plans
Solid Waste Management
Waste Water ManagementWater Management and Reservoir Management
ECO Lifestyle
bull Bike Lanebull Solar Street Light
bull Use high efficiency appliancesbull Use low carbon productsbull Recycling material use
0 Contract Sign
1 Kick off meeting
2 Update Information and Data Collection
3 Prepare a Low-Carbon Strategy for SAMUI
Island low carbon town development
project
4 Analyze CO2 reductions and costs for the
selected design measures + Initial FS Report
5 Prepare a report
6 Review and Approve
Project Schedule
TasksActivities Date
February 2012
March 2012
April 2012
April 2012
September 2012
October 2012
November 2012
Thank You
For
Your Attention
ECO Lifestyle
bull Bike Lanebull Solar Street Light
bull Use high efficiency appliancesbull Use low carbon productsbull Recycling material use
0 Contract Sign
1 Kick off meeting
2 Update Information and Data Collection
3 Prepare a Low-Carbon Strategy for SAMUI
Island low carbon town development
project
4 Analyze CO2 reductions and costs for the
selected design measures + Initial FS Report
5 Prepare a report
6 Review and Approve
Project Schedule
TasksActivities Date
February 2012
March 2012
April 2012
April 2012
September 2012
October 2012
November 2012
Thank You
For
Your Attention
0 Contract Sign
1 Kick off meeting
2 Update Information and Data Collection
3 Prepare a Low-Carbon Strategy for SAMUI
Island low carbon town development
project
4 Analyze CO2 reductions and costs for the
selected design measures + Initial FS Report
5 Prepare a report
6 Review and Approve
Project Schedule
TasksActivities Date
February 2012
March 2012
April 2012
April 2012
September 2012
October 2012
November 2012
Thank You
For
Your Attention
Thank You
For
Your Attention
