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Creating Regional Value from RES in Germany
1. Creating regional added value by using RES in Germany
Urban Kaiser, Fraunhofer MOEZ
Local development based on renewable energy sources
Łódź, April 15 2011
2. Regional Energy Concepts in Baltic Sea Region
Objectives
n
Short and Mid-Term
–
Networking activities
–
Transnational exchange of experiences among RES related R&D
clusters and networks
n
Mid-Term
–
Development of ideas for a joint EU-Proposal regarding
integral regional energy concepts for regions (and/or cities) in
the Baltic Sea Region
–
Identification of additional partners for the EU-Proposal
n
Long-Term
–
Sustainable transnational R&D-network to foster the (further)
development of regional energy concepts in the Baltic Sea
Region
3. Regional Energy Concepts in Baltic Sea Region
Methods and Instruments for Implementation
n
Four Regional Workshops
n
March 21: Technical solutions for cities and regions (Kassel, DE)
n
April 15: Local development based on renewable energy csources (Łódż, PL)
n
June 7: Social aspects of regional energy concepts (Leipzig, DE)
n
June 22: Energy-related Climate Change Adaptation strategies for
municipalities (Lillehammer, NO)
n
International Final Conference (Kassel, September 2011)
n
Communication platform (http://rdnetwork.owwz.de)
5. Introduction
•
The implementation of European and national
targets to reduce carbon dioxide emissions has to be
carried out on regional and local level
•
The main driver for municipalities for using RES is
creating regional added value
-> Which kind of regional added value effects by using
RES are possible and how can they be calculated?
10. Regional added value (example of 1 kW onshore wind
energy, one time and yearly effects in Euro, 2009)
300
200
100
0
Investion Planning and Technical Operating
Installation operation Company Source: IOEW/ZEE
Net Income (employment) Profit after Taxes Communal Taxes
11. Regional added value (example of 1 kW onshore wind
energy, after 20 years of operation, in Euro)
12. Added Value of a generic municipality with an average
degree of extension 1
12
10
8
6
4
2
0
Source: IOEW/ZEE
13. Added Value of a generic municipality with an average
degree of extension 2
12
10
8
6
4
2
0
Source: IOEW/ZEE
14. Added Value of a generic municipality with an average
degree of extension 3
12
10
8
6
4
2
0
Source: IOEW/ZEE
15. Added Value of a generic municipality with an average
degree of extension 4
Source: IOEW/ZEE
16. Added Value of a generic municipality with an average
degree of extension 5
12
10
8
6
4
2
0
Source: IOEW/ZEE
17. Shares of RES Technologies per added value levels
(2009) Main Results of
Extrapolation 2009
−
Total added value:
6,7 Billion Euro
−
Parts: PV 2,4, Wind
2, Biomass total 1,7
Billion Euro
−
Municipality Taxes:
0,6 Billion Euro
−
116.000 full-time
employee in
Renewable Energy
Area
−
3,7 Billion Euro
avoided costs for
fuel
Source: IOEW/ZEE
18. Scenario-based extrapolation for 2020 (according to
BMU and BEE)
Main Results of
Extrapolation 2020
according to BEE-
Developmentforecast:
•
Total added value: 13
Billion Euro
•
50% from PV and
Wind
•
Municipality Taxes:
1,2 Billion Euro
•
212.00 full-time
employees in
Renewable Energy
Area
•
35 Billion Euro
avoided costs for fuel
Source: IOEW/ZEE
20. Fraunhofer MOEZ – At a Glance
•
Founded in 2006
•
One of 59 research institutes
within Fraunhofer Gesellschaft
•
Core Competences of applied
and international orientated
research
•
Economic Sciences (Business
Administration and Economics)
•
Political and Social Sciences
•
Eastern European Sciences
•
40 members of staff
•
Three business fields and four
“upcoming areas”
22. Dziękuję za uwagę
Urban Kaiser, M.A.
Research Fellow
Energy and Social Dialogue
Fraunhofer Center for Central and Eastern Europe
MOEZ
Neumarkt 9-19
04109 Leipzig
GERMANY
Phone: +49-341-231039-150
Fax: +49-341-231039-190
E-Mail: urban.kaiser@moez.fraunhofer.de