10. WS Effective use of thermal energy in industry_Futured
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VI CDTI-NEDO JOINT WORKSHOP Perspectives and challenges of TES for Industrial Processes Spanish Group of Energy Storage ANA LAZARO Leader of Thermal Energy Storage Division Bilbao, 23 rd June 2016
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Transcript of 10. WS Effective use of thermal energy in industry_Futured
VI CDTI-NEDO JOINT WORKSHOP
Perspectives and challenges of TES for Industrial Processes
Spanish Group of Energy Storage
ANA LAZAROLeader of Thermal
Energy Storage Division
Bilbao, 23rd June 2016
#WasteHeat The Effective use of thermal energy in industry
Introduction Why? How?Perspectives
and Challenges
Conclusions
00Content
#WasteHeat The Effective use of thermal energy in industry
- I3A – Instituto de Investigación en Ingeniería de Aragón
(Aragon Institute of Engineering Research)
- INA – Instituto de Nanociencia- BIFI – Instituto de Biocomputación- IUMA – Instituto de Matemáticas y Aplicaciones- IUCA – Instituto en Ciencias Ambientales de Aragón- Instituto Mixto CIRCE- ISQCH – Instituto de Síntesis y Catálisis Homogénea- ICMA – Instituto de Ciencias de los Materiales de Aragón- ZLC – Zaragoza Logistics Center - ICE – Instituto de Ciencias de la Educación
01Introduction: Research Institutes at UNIZAR
#WasteHeat The Effective use of thermal energy in industry
- I3A – Instituto de Investigación en Ingeniería de Aragón
- INA – Instituto de Nanociencia- BIFI – Instituto de Biocomputación- IUMA – Instituto de Matemáticas y Aplicaciones
http://i3a.unizar.es/en
02Introduction: Research Institutes at UNIZAR
#WasteHeat The Effective use of thermal energy in industry
- Thermal energy storage
- HVAC
- Solar energy
- Modeling, simulation and design of thermal devices
- Modeling, simulation and design of energy systems
- Thermoeconomics, eco-efficiency and optimization
Solar cooling facility Solar Dish-Stirling
HVAC facilities
03Introduction: GITSE – Research Group & Research Areas
#WasteHeat The Effective use of thermal energy in industry
Thermal Energy Storage (TES) Why?
Fuente: http://alerce.cnice.mecd.es/
Fuente: http://alerce.cnice.mecd.es/
1
#WasteHeat The Effective use of thermal energy in industry
Charge DischargeStorage
time
a
b
c
d
Qloss Qloss Qloss
TES Systems based on 3 stages:
Thermal Storage implies Thermal Losses, so it should be any advantage to do it.
05Why Thermal Energy Storage?
#WasteHeat The Effective use of thermal energy in industry
Coupling Energy demand-availability: solar, cogeneration, free-cooling, WASTE HEAT
Taking advantage of off-peak hours (electrical tariff)
Lower nominal capacity of the equipment
Lower Energy demand
Supply assurance
Thermal inertia/Thermal protection
06Why Thermal Energy Storage?
#WasteHeat The Effective use of thermal energy in industry
Coupling Energy demand-availability: solar
TES
07Some examples
#WasteHeat The Effective use of thermal energy in industry
Coupling Energy demand-availability: solarSeasonal StorageSolar District Heating Systems
Plant FactsheetOwner: Vojens Fjernvarme, DK Location: Vojens, DenmarkStart of operation: 2012 - extension 2014 Shutdown:
Aperture area in m2: 70000 Capacity in kWth 49000Collector system: FPCStorage type: WTES Storage size in m3: 203000
http://solar-district-heating.eu
08Some examples
#WasteHeat The Effective use of thermal energy in industry
Lower nominal capacity Peak demand covered by TES
http://www.areous.com.au
09Some examples
#WasteHeat The Effective use of thermal energy in industry
How can Thermal Energy be Stored?2
#WasteHeat The Effective use of thermal energy in industry
Source: Andreas HauerEnergy Storage –Technologies & Applications
IEA Energy Storage Technology RoadmapStakeholder Engagement Workshop 2013
11TES Technologies
#WasteHeat The Effective use of thermal energy in industry
Water tanks
Solid
Underground Thermal Energy Storage
www.iftech.co.uk
1
2
3
4
5
6
7
Entrada
Salida
12Sensible
#WasteHeat The Effective use of thermal energy in industry
Huang et al. 2009
Solid-liquid phase change
Bulk (macroencapsulated) Solid-compounds PCM slurries
PCM emulsions
micro-encapsulated PCM slurries
PhaseChangeMaterial
Arkar and Medved(2005)
http://www.rubitherm.eu
http://www.rubitherm.eu
13Latent
#WasteHeat The Effective use of thermal energy in industry
Thermochemical
Sorption storage
adsorption
absorption
Chemical storage
14Thermo Chemical
#WasteHeat The Effective use of thermal energy in industry
Mobile Sorption Storage System for Industrial Waste Heat Utilisation
Industrial Waste heat TES
District Heating and Cooling
15TES Technologies: examples not in-situ
#WasteHeat The Effective use of thermal energy in industry
Perspectives and challenges of TES for Industrial Processes
3
#WasteHeat The Effective use of thermal energy in industry
#WasteHeat The Effective use of thermal energy in industry
Application requirements
• Power
• Storage capacity
• Charging temperature
• Discharging temperature
Material selection
• Stored Energy
• Heat conductivity
• Corrosion/Compatibility with encapsulation
• Resistance to thermal cycles
18Perspectives of TES for Industrial Processes
#WasteHeat The Effective use of thermal energy in industry
CHALLENGES
for Industrial
Applications
Materials
Storage Density
Temperature range
Costs
Heat exchanger
Power
Compactness
System Integration
Load management
Waste Heat Recovery
Charging/discharging strategies
19Challenges of TES for Industrial Processes
#WasteHeat The Effective use of thermal energy in industry
0
10
20
30
40
50
60
70
80
6 8 10 12 14 16 18 20 22 24 26
Sto
rage
den
sity
[kW
.h/m
3]
Temperature [oC]
6kW
·h/m
3
4oC
55kW
·h/m
3
PCM
Water
20Materials: Storage Density
#WasteHeat The Effective use of thermal energy in industry
21Materials Latent Heat Storage
#WasteHeat The Effective use of thermal energy in industry
N. Yu, R.Z. Wang, L.W. Wang, Sorption thermal storage for solar energy, Progress in Energy and Combustion Science, Volume 39, Issue 5, 2013, 489-514
22Materials Thermochemical Storage
#WasteHeat The Effective use of thermal energy in industry
Mac
roen
cap
sula
ted
PC
Mvo
l:60
%
23Heat exchangers Energy density: Latent Heat Storage
#WasteHeat The Effective use of thermal energy in industry
Ground
Sensible-solid
Sensible-water
PCM
Ice
Thermo-chemical
24Technology Readiness Levels (TRL)
#WasteHeat The Effective use of thermal energy in industry
IRENA, TES technological brief, January 2013
25Typical parameters of TES systems
#WasteHeat The Effective use of thermal energy in industry
Conclusions4
#WasteHeat The Effective use of thermal energy in industry
The storage of thermal energy can replace heat and cold production from fossil fuels, reduce CO2 emissions
and lower the need for costly peak power and heat production capacity.
In Europe, it has been estimated that around 1.4 million GWh per year could be saved— and 400 million tonnes
of CO2 emissions avoided—in the building and industrial sectors by more extensive use of heat and cold
storage.
Industrial waste heat recovery can be achieved by TES providing the required thermal energy demand in-
situ or at other sites by mobile TES under development.
TES is the most adequate Energy Storage technology to couple intermittent thermal energy sources to
thermal energy demand. Efficiency losses in energy transformation are avoided.
Industrial by-products and waste material may have a potential use as storage materials.
Thermal Energy Division of the Spanish Group of Energy Storage (cross-cutting Technology for Technological
Platforms) gathers research and development capacities on Storage Materials, TES System and TES integration to face
the described challenges
27Conclusions
