Potential for Renewable Energy Sources (RES) in Grenoble, Delft & Växjö

Sustainable cities is an area that has grown in size over the last couple of years. The SESAC (Sustainable Energy Systems in Advanced Cities) is a EU-project looking at the potential to increase the share of Renewable Energy Sources (RES) and promote energy efficiency measures in different EU cities...

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Main Author: Turesson, Jonas
Format: Others
Language:English
Published: KTH, Industriell ekonomi och organisation (Inst.) 2011
Subjects:
RES
Online Access:http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-34442
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spelling ndltd-UPSALLA1-oai-DiVA.org-kth-344422013-01-08T13:50:05ZPotential for Renewable Energy Sources (RES) in Grenoble, Delft & VäxjöengTuresson, JonasKTH, Industriell ekonomi och organisation (Inst.)2011RESRenewable Energy SourcesWindSolar PVWaste TreatmentVäxjöDelftGrenobleSustainable CitiesEnergyIndustrial engineering and economyIndustriell teknik och ekonomiSustainable cities is an area that has grown in size over the last couple of years. The SESAC (Sustainable Energy Systems in Advanced Cities) is a EU-project looking at the potential to increase the share of Renewable Energy Sources (RES) and promote energy efficiency measures in different EU cities. This master thesis is a part of that project. Specifically, the thesis examines the cities of Grenoble, Delft and Växjö and looks at what measures regarding RES and energy efficiency have been taken historically, both under the SESAC project and otherwise, and assesses the possibility of further measures in the cities. The main RES evaluated are wind power (large scale and urban), solar (PV and thermal) and waste treatment (waste incineration and biogas production). The feasibility of these renewable technologies is evaluated both physically, technically and economically for each city. Further, the historical and current hinders and promoters in the form of different support schemes and other economic and institutional schemes are summarized for each country and city and the effects of which included in the feasibility calculations. Also, current CO2 emissions of Grenoble, Delft and Växjö are stated and the impact of implementing the measures examined is calculated. A comparison between the three cities is also made and suggestions are made to what they can learn from each other and what synergies there are.    Results show that the technical potential for RES is sizeable in the cities, as seen in Table 1. Important to note are the differences between the cities. Besides from their differences in population size, ranging from 83 000 (Växjö) and 96 000 (Delft) to 400 000 (Grenoble), available land area as well as climate are very different in the cities, therefore affecting the potential for the RES technologies.   RES potential [GWh] Grenoble Delft Växjö Wind 458 1,2 (Urban only) 297-2000 Solar PV 375 150 0,06-0,3 Waste treatment 41 11 10 Table 1. Technical potential of RES in Grenoble, Delft and Växjö Looking at the economic potential, however, the picture is not as optimistic. The only economically feasible investments of the options in Table 1 are investing in solar PV in Grenoble and Delft (IRR of 0-10%) and wind in Växjö (IRR of 4%). All other investments have negative NPV:s and IRR:s, meaning that either the cost of the technologies must be reduced or more favorable support scheme be introduced in order to make the them profitable.         Student thesisinfo:eu-repo/semantics/bachelorThesistexthttp://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-34442Examensarbete INDEK ; 2011:45application/pdfinfo:eu-repo/semantics/openAccess
collection NDLTD
language English
format Others
sources NDLTD
topic RES
Renewable Energy Sources
Wind
Solar PV
Waste Treatment
Växjö
Delft
Grenoble
Sustainable Cities
Energy
Industrial engineering and economy
Industriell teknik och ekonomi
spellingShingle RES
Renewable Energy Sources
Wind
Solar PV
Waste Treatment
Växjö
Delft
Grenoble
Sustainable Cities
Energy
Industrial engineering and economy
Industriell teknik och ekonomi
Turesson, Jonas
Potential for Renewable Energy Sources (RES) in Grenoble, Delft & Växjö
description Sustainable cities is an area that has grown in size over the last couple of years. The SESAC (Sustainable Energy Systems in Advanced Cities) is a EU-project looking at the potential to increase the share of Renewable Energy Sources (RES) and promote energy efficiency measures in different EU cities. This master thesis is a part of that project. Specifically, the thesis examines the cities of Grenoble, Delft and Växjö and looks at what measures regarding RES and energy efficiency have been taken historically, both under the SESAC project and otherwise, and assesses the possibility of further measures in the cities. The main RES evaluated are wind power (large scale and urban), solar (PV and thermal) and waste treatment (waste incineration and biogas production). The feasibility of these renewable technologies is evaluated both physically, technically and economically for each city. Further, the historical and current hinders and promoters in the form of different support schemes and other economic and institutional schemes are summarized for each country and city and the effects of which included in the feasibility calculations. Also, current CO2 emissions of Grenoble, Delft and Växjö are stated and the impact of implementing the measures examined is calculated. A comparison between the three cities is also made and suggestions are made to what they can learn from each other and what synergies there are.    Results show that the technical potential for RES is sizeable in the cities, as seen in Table 1. Important to note are the differences between the cities. Besides from their differences in population size, ranging from 83 000 (Växjö) and 96 000 (Delft) to 400 000 (Grenoble), available land area as well as climate are very different in the cities, therefore affecting the potential for the RES technologies.   RES potential [GWh] Grenoble Delft Växjö Wind 458 1,2 (Urban only) 297-2000 Solar PV 375 150 0,06-0,3 Waste treatment 41 11 10 Table 1. Technical potential of RES in Grenoble, Delft and Växjö Looking at the economic potential, however, the picture is not as optimistic. The only economically feasible investments of the options in Table 1 are investing in solar PV in Grenoble and Delft (IRR of 0-10%) and wind in Växjö (IRR of 4%). All other investments have negative NPV:s and IRR:s, meaning that either the cost of the technologies must be reduced or more favorable support scheme be introduced in order to make the them profitable.        
author Turesson, Jonas
author_facet Turesson, Jonas
author_sort Turesson, Jonas
title Potential for Renewable Energy Sources (RES) in Grenoble, Delft & Växjö
title_short Potential for Renewable Energy Sources (RES) in Grenoble, Delft & Växjö
title_full Potential for Renewable Energy Sources (RES) in Grenoble, Delft & Växjö
title_fullStr Potential for Renewable Energy Sources (RES) in Grenoble, Delft & Växjö
title_full_unstemmed Potential for Renewable Energy Sources (RES) in Grenoble, Delft & Växjö
title_sort potential for renewable energy sources (res) in grenoble, delft & växjö
publisher KTH, Industriell ekonomi och organisation (Inst.)
publishDate 2011
url http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-34442
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