JOANNEUM RESEARCH Forschungsgesellschaft mbH Modelling Energy Storage Demand „Energy Storages for Renewable Energy as Key Technology for Future Energy Systems“ Karl-Peter Felberbauer IEA-CERT Workshop Energy Storage Issues and Opportunities 15th February 2011, Paris
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JOANNEUM RESEARCH Forschungsgesellschaft mbH
Modelling Energy Storage Demand
„Energy Storages for Renewable Energy as Key Technology for
Future Energy Systems“
Karl-Peter Felberbauer
IEA-CERT WorkshopEnergy Storage Issues and Opportunities
15th February 2011, Paris
2
Modelling Energy System Austria
AngebotVerbrauch
Supply
Fossil
&
RES
Consumption
Energy
Market
Discontinuos
supply
Continuous basic supply
meets base & mid-consumption
Energy
Storagesfor
hours
days,
weeks and
months
Discontinuous
consumption
Present
Situation
2009
Present
Situation
2009
Source: JOANNEUM RESEARCH
Future
Scenarios
Future
Scenarios
3
Outline
Research Focus
Conclusion
Modelling Energy
System Austria
100 % RES
Modelling
Storage Demand
4
Outline
Research Focus
Conclusion
Modelling Energy
System Austria
100 % RES
Modelling
Storage Demand
6
Research Focus
Recommendations for stakeholders (industry, government & research) in Austria
Identification of the most interesting energy storagesoptions for Austria
Modelling Storage Demand in AustriaElectricity, Heat, Fuels (solid, liquid, gaseous)
Present & Future situation
Assessment
Technical Economical Environmental
Energy Storages Technologies & Systems
State of the art & characteristics Application systems & integration
7
Outline
Research Focus
Conclusion
Modelling Energy
System Austria
100 % RES
Modelling
Storage Demand
8
Modelling Energy System Austria I
Periods• Present: 2009
• Future: 2025/2050
Possiblescenarios
• More RES (e.g. „Scenario 100% RES“)
• More energy efficiency
• Consumer behaviour change
• Smart Grids(Demand Side Management, Supply Side Management,..)
Results
• Identify most interessting energy storages options for 2025/2050
9
Modelling Energy System Austria II
Demand of energy services
Austria 2009 = 2050Useful energy demand
e.g. vehicle, heat
Final energy:
demand = supply
e.g. heating oil, electricity
Primary energy supply
e.g. oil, natural gas,
hydro power, wind energy
Based on
Lauer et al. 1995, Jungmeier et al. 2006
10
Useful Energy Demandin „Scenario 2050: 100 % RES“
0
100
200
300
400
500
600
700
Energy System Austria 2009 Energy System Austria 2050
Usefu
l E
nerg
y D
em
an
d
[PJ/a
]
light, IT
vehicles
space heating
process heating
mechanical work
633
416
Minus
~35%
11
Modelling Energy System Austria III
Demand of energy services
Austria 2009 = 2050Useful energy demand
e.g. vehicle, heat
Final energy:
demand = supply
e.g. heating oil, electricity
Primary energy supply
e.g. oil, natural gas,
hydro power, wind energy
Based on
Lauer et al. 1995, Jungmeier et al. 2006
12
Primary Energy Supplyin „Scenario 2050: 100 % RES“
0
200
400
600
800
1,000
1,200
1,400
1,600
Energiesystem Austria 2009 Energiesystem Austria 2050
Pri
mar
y En
erg
yD
em
and
[PJ
/a]
others (e.g. renewable heat)
wind & pv
hydro power
biomass
natural gas
oil
coal
1.353
632
Minus
~50%
13
Modelling Energy System Austria IV
Demand of energy services
Austria 2009 = 2050Useful energy demand
e.g. vehicle, heat
Final energy:
demand = supply
e.g. heating oil, electricity
Primary energy supply
e.g. oil, natural gas,
hydro power, wind energy
Based on
Lauer et al. 1995, Jungmeier et al. 2006
14
Final Energy Demand Scenario 2050: 100 % RES
Total final energy demand 550 PJ/a (currently 1,060 PJ/a)
district heating (e.g. CHP)
10%
solid biomass 16%
liquid biomass9%
gaseous biomass3%
electricity45%
consumerside heat12%
hydrogen5%
15
Outline
Research Focus
Outlook
Modelling Energy
System Austria
100 % RES
Modelling
Storage Demand
16
Modelling Energy Storage Demand – Location of Storage
„supply-side
storage“
„consumer-side storage“Source: Fraunhofer AST
Supply
Consumption
17
Modelling Energy Storage Demand
Demand of energy services
Austria 2009 = 2050Useful energy demand
e.g. vehicle, heat
Final energy:
demand = supply
e.g. heating oil, electricity
Primary energy supply
e.g. oil, natural gas,
hydro power, wind energy
Based on
Lauer et al. 1995, Jungmeier et al. 2006
Electricity
per hour
Heat
per season
Fuels
per month
18
Example - Electricity Summerday2009
0
4,000
8,000
12,000
0
4,000
8,000
12,000
Lo
ad
Cu
rve –
Dem
an
d
[MW
]
Lo
ad
Cu
rve -
Su
pp
ly [
MW
]
Export
Hydro Power
Biomass
Wind Power
Storage Power Plants
Demand
Thermal Power Plants
PV
19
Example - Electricity Winterday2009
0
4,000
8,000
12,000
0
4,000
8,000
12,000
00:00 04:00 08:00 12:00 16:00 20:00
Lo
ad
Cu
rve –
Dem
an
d
[MW
]
Lo
ad
Cu
rve -
Su
pp
ly [
MW
]
Import
ExportImport
Hydro Power
Biomass
Wind Power
Storage Power Plants
Demand
Thermal Power Plants
PV
Import
20
Example „Scenario 2050: 100 % RES“ - Electricity Summerday 2050