Verfügbarkeit: On the economics of renewable energy in electricity generation

On the economics of renewable energy in electricity generation:

Gespeichert in:

Bibliographische Detailangaben
1. Verfasser:	Schäfer, Sebastian (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Siegen KLS GbR [2020]
Schlagworte:	Wirtschaftlichkeit Erneuerbare Energien Technologie Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	XVII, 243 Seiten Illustrationen 25 cm
ISBN:	9783000647666 300064766X

Internformat

MARC


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Datensatz im Suchindex

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adam_text	CONTENTS CONTENTS VII LIST OF FIGURES XI LIST OF TABLES XIV LIST OF ABBREVIATIONS XVII 1 INTRODUCTION 1 1.1 DEVELOPMENT OF THE USE OF RENEWABLE ENERGY ........................ 2 1.2 IS THE PROMOTION OF RENEWABLE ENERGY AN ECONOMICALLY FEASI BLE POLICY? ......................................................................... 6 1.3 REVERSE AUCTIONS FOR RES ...................................................... 11 1.4 EFFICIENT COORDINATION OF EMISSIONS TRADING AND PROMOTION OF RENEWABLE ENERGY ...................................................................... 15 1.5 DESIGNING A FUTURE ELECTRICITY MARKET .................................... 17 2 SUBSIDIZING RENEWABLE ENERGY: HIGHER WELFARE BY LOWER DE PRECIATION COSTS FOR FOSSIL POWER PLANTS? 23 2.1 INTRODUCTION ............................................................................... 23 2.2 MODEL ........................................................................................ 25 2.2.1 GENERAL STRUCTURE OF THE MODEL ................................... 25 2.2.2 EMISSIONS AND THEIR MITIGATION .................................... 28 2.2.2.1 COST STRUCTURE OF EMISSION REDUCTION .... 28 2.2.2.2 EMISSION REDUCTION INDUCED BY THE ETS . . 31 2.2.2.3 EMISSION REDUCTION INDUCED BY THE PROMO TION OF RES ................................................... 32 2.2.3 THE REFERENCE SCENARIO ................................................ 33 2.2.4 PROMOTION OF RENEWABLE ENERGY ................................... 34 2.2.4.1 STRATEGIES TO PROMOTE RENEWABLE ENERGY . . 35 2.2.5 PARAMETRIZATION OF THE MODEL ...................................... 37 VII CONTENTS 2.2.5.1 RATIO OF THE MULTIPLIERS $Y, 4 # ................ 37 2.2.5.2 TIME PREFERENCE RATE P ............................... 38 2.2.5.3 ELECTRICITY GENERATION ................................... 38 2.2.5.4 REDUCTION OF CO2 EMISSIONS ..................... 39 2.2.6 SOLUTION OF THE MODEL ................................................. 39 2.3 RESULTS ......................................................................................... 41 2.3.1 THE REFERENCE SCENARIO ................................................. 42 2.3.2 SCENARIO WITH ADDITIONAL PROMOTION OF RES .............. 46 2.4 CONCLUSIONS ................................................................................ 49 3 MARKET-BASED PROMOTION OF RENEWABLE ENERGY WITH REVERSE AUCTIONS 51 3.1 INTRODUCTION ............................................................................... 51 3.2 REVERSE AUCTIONS FOR RENEWABLE ENERGY .................................. 53 3.2.1 INFORMATION ASYMMETRY AND ADVERSE SELECTION IN RE VERSE AUCTIONS ................................. 54 3.3 MODEL ......................................................................................... 56 3.3.1 MODEL ASSUMPTIONS ....................................................... 57 3.3.2 OBJECTIVE FUNCTION OF THE REGULATOR ............................ 57 3.3.3 QUANTIFICATION OF THE REGULATOR * S OBJECTIVES ..... 58 3.3.4 STRATEGIC BIDDING BEHAVIOR ........................................... 62 3.4 RECOMMENDATIONS FOR IMPLEMENTATION OF REVERSE AUCTIONS FOR WIND ENERGY ................................................................................ 66 3.4.1 OPTIMIZED DEPLOYMENT OF RENEWABLES ......................... 67 3.4.2 CONSIDERATION OF GRID CONGESTION AND GENERATING CA PACITY ............................................................................. 69 3.5 NUMERICAL SIMULATION ................................................................ 70 3.6 CONCLUSIONS ................................................................................ 74 4 DECOUPLING THE EU ETS FROM SUBSIDIZED RENEWABLES AND OTHER DEMAND SIDE EFFECTS - LESSONS FROM THE IMPACT OF THE EU ETS ON CO2 EMISSIONS IN THE GERMAN ELECTRICITY SECTOR 75 4.1 INTRODUCTION ................................................................................ 75 4.2 THE EU ETS IN THE GERMAN ELECTRICITY SECTOR ..................... 78 4.3 CO2 REDUCTION IN THE GERMAN ELECTRICITY SECTOR .................. 80 4.3.1 ANALYSIS OF THE COUNTERFACTUAL SCENARIO WITHOUT ETS 85 4.3.2 CALCULATION OF EMISSION ABATEMENT INDUCED BY THE EU ETS ................................................................................ 87 4.4 READJUSTMENT OF THE EU ETS ................................................. 90 4.4.1 ANALYSIS OF EMPIRICAL DATA ........................................... 91 4.4.2 INTRODUCTION OF A UNILATERAL FLEXIBLE CAP .................. 92 VIII CONTENTS 4.4.3 EX-POST EVALUATION OF THE IMPACT OF A UNILATERAL FLEX IBLE CAP ............................................... 94 4.5 CONCLUSIONS ............................................................................... 98 5 RECONCILING EMISSIONS TRADING AND THE PROMOTION OF RENEW ABLE ENERGY 101 5.1 INTRODUCTION ............................................................................... 101 5.2 MODEL ........................................................................................ 103 5.2.1 LINEAR MAC ................................................................ 105 5.2.2 WORST-CASE ANALYSIS ................................................ 109 5.2.3 MAC AS CONICAL COMBINATION OF POWER FUNCTIONS . . . 114 5.3 EMPIRICAL APPLICATION OF THE CONTROL MECHANISM ....................... 117 5.3.1 INDICATOR TO EVALUATE THE SUCCESS OF THE EU ETS . . 118 5.3.2 INDICATOR TO EVALUATE THE SUCCESS OF RES ........................ 119 5.3.3 RESULTS OF THE EMPIRICAL APPLICATION OF THE MODEL . . 120 5.4 CONCLUSIONS ............................................................................... 124 6 ON THE FUNCTIONING OF A CAPACITY MARKET WITH AN INCREASING SHARE OF RENEWABLE ENERGY 127 6.1 INTRODUCTION ............................................................................... 127 6.2 CAPACITY AUCTIONS WITH RELIABILITY OPTIONS ........................... 129 6.3 SPOT MARKET EQUILIBRIUM IN THE PRESENCE OF A CAPACITY MARKET 132 6.3.1 INCENTIVES FOR AN INVESTMENT IN POWER PLANTS ............ 134 6.3.2 RATIONAL BIDDING BEHAVIOR IN A CAPACITY MARKET . . . 135 6.3.2.1 INCENTIVE REGULATION ...................... 136 6.3.2.2 EQUILIBRIUM CONDITION .................................. 138 6.4 MARKET IMPACTS ......................................................................... 140 6.4.1 IMPACT OF POWER PLANT MATURITY ................................. 141 6.4.2 IMPACT OF SUNK COSTS ................................................... 142 6.4.3 IMPACT OF CARBON EMISSION COSTS ................................. 143 6.4.4 IMPACT OF AN INCREASING SHARE OF RENEWABLE ENERGY . 144 6.5 NUMERICAL EXAMPLE ................................................................... 147 6.5.1 MARKET EQUILIBRIUM ...................................................... 147 6.5.2 RISK REDUCTION ............................................................. 148 6.5.3 IMPACT OF AN INCREASING SHARE OF RENEWABLE ENERGY . 149 6.6 CONCLUSIONS ............................................................................... 152 7 CAPACITY AUCTION DESIGN ADJUSTED TO THE TRANSITION TOWARDS A RENEWABLE-BASED ELECTRICITY GENERATION 155 7.1 INTRODUCTION ............................................................................... 155 7.2 GENERAL CAPACITY AUCTION DESIGN ............................................... 157 IX CONTENTS 7.3 MODELING THE INTERNALIZATION OF EXTERNAL COSTS ..................... 159 7.3.1 THEORETICAL BACKGROUND ON EXTERNAL COSTS ................... 160 7.3.2 CONSIDERATION OF PROMOTION COSTS FOR RES ................... 161 7.3.3 CALCULATION OF THE ADJUSTED EMISSION PRICE ................... 164 7.3.4 PRICE DISCRIMINATION .................................................... 166 7.4 IMPLICATIONS OF THE CAPACITY AUCTION DESIGN ........................ 171 7.5 CONCLUSIONS ................................................................................ 172 8 CONCLUSIONS 173 APPENDIX A 177 A. L MAXIMUM CONDITIONS AND EULER-EQUATIONS ............................ 177 A. 2 PARAMETER VALUES ............................................................. . . 178 A. 3 PROGRAM CODE TO INCLUDE EMISSION ABATEMENT AS ECONOMIC SHOCK ......................................................................................... 179 APPENDIX B 185 B. L MODEL EFFECTS OF INFLATED PRICE BIDS ........................................ 185 B.1.1 PROOF OF LEMMA 1 ....................................................... 187 APPENDIX C 191 C. L EMPIRICAL DATA AND CALCULATIONS .............................................. 191 APPENDIX D 195 D. L WORST-CASE ANALYSIS OF ADDITIONAL ABATEMENT COSTS ................... 195 B.1.1 LINEAR MAC ................................................................ 195 D.L. 1.1 INTRODUCTION OF A NECESSARY CONSTRAINT . . . 198 D.L. 2 MAC APPROXIMATED BY WEAK CONVEX POWER FUNCTIONS 200 D.L. 2.1 MAXIMIZATION WITH RESPECT TO INITIAL COSTS . 202 D.1.3 MAC APPROXIMATED BY A CONICAL COMBINATION OF WEAK CONVEX POWER FUNCTIONS ..................................... 203 D.L. 3.1 MAXIMIZATION WITH RESPECT TO INITIAL COSTS . 204 D.L. 3.2 MAXIMIZATION WITH RESPECT TO THE RATIO OF COEFFICIENTS 6I ..................................... 206 D. 1.3.3 REDUCTION TO SINGLE POWER FUNCTIONS .... 207 D.2 EMPIRICAL DATA AND CALCULATIONS .................................................. 209 D.3 PROGRAM CODE TO MAXIMIZE A C RE I FOR DIFFERENT EXPONENTS AND SLOPE RATIOS .......................................................................... 212 D.4 PROGRAM CODE TO MAXIMIZE A C RE I WITH RESPECT TO B R .... 213 REFERENCES 221 X
adam_txt	CONTENTS CONTENTS VII LIST OF FIGURES XI LIST OF TABLES XIV LIST OF ABBREVIATIONS XVII 1 INTRODUCTION 1 1.1 DEVELOPMENT OF THE USE OF RENEWABLE ENERGY . 2 1.2 IS THE PROMOTION OF RENEWABLE ENERGY AN ECONOMICALLY FEASI BLE POLICY? . 6 1.3 REVERSE AUCTIONS FOR RES . 11 1.4 EFFICIENT COORDINATION OF EMISSIONS TRADING AND PROMOTION OF RENEWABLE ENERGY . 15 1.5 DESIGNING A FUTURE ELECTRICITY MARKET . 17 2 SUBSIDIZING RENEWABLE ENERGY: HIGHER WELFARE BY LOWER DE PRECIATION COSTS FOR FOSSIL POWER PLANTS? 23 2.1 INTRODUCTION . 23 2.2 MODEL . 25 2.2.1 GENERAL STRUCTURE OF THE MODEL . 25 2.2.2 EMISSIONS AND THEIR MITIGATION . 28 2.2.2.1 COST STRUCTURE OF EMISSION REDUCTION . 28 2.2.2.2 EMISSION REDUCTION INDUCED BY THE ETS . . 31 2.2.2.3 EMISSION REDUCTION INDUCED BY THE PROMO TION OF RES . 32 2.2.3 THE REFERENCE SCENARIO . 33 2.2.4 PROMOTION OF RENEWABLE ENERGY . 34 2.2.4.1 STRATEGIES TO PROMOTE RENEWABLE ENERGY . . 35 2.2.5 PARAMETRIZATION OF THE MODEL . 37 VII CONTENTS 2.2.5.1 RATIO OF THE MULTIPLIERS $Y, 4 # . 37 2.2.5.2 TIME PREFERENCE RATE P . 38 2.2.5.3 ELECTRICITY GENERATION . 38 2.2.5.4 REDUCTION OF CO2 EMISSIONS . 39 2.2.6 SOLUTION OF THE MODEL . 39 2.3 RESULTS . 41 2.3.1 THE REFERENCE SCENARIO . 42 2.3.2 SCENARIO WITH ADDITIONAL PROMOTION OF RES . 46 2.4 CONCLUSIONS . 49 3 MARKET-BASED PROMOTION OF RENEWABLE ENERGY WITH REVERSE AUCTIONS 51 3.1 INTRODUCTION . 51 3.2 REVERSE AUCTIONS FOR RENEWABLE ENERGY . 53 3.2.1 INFORMATION ASYMMETRY AND ADVERSE SELECTION IN RE VERSE AUCTIONS . 54 3.3 MODEL . 56 3.3.1 MODEL ASSUMPTIONS . 57 3.3.2 OBJECTIVE FUNCTION OF THE REGULATOR . 57 3.3.3 QUANTIFICATION OF THE REGULATOR * S OBJECTIVES . 58 3.3.4 STRATEGIC BIDDING BEHAVIOR . 62 3.4 RECOMMENDATIONS FOR IMPLEMENTATION OF REVERSE AUCTIONS FOR WIND ENERGY . 66 3.4.1 OPTIMIZED DEPLOYMENT OF RENEWABLES . 67 3.4.2 CONSIDERATION OF GRID CONGESTION AND GENERATING CA PACITY . 69 3.5 NUMERICAL SIMULATION . 70 3.6 CONCLUSIONS . 74 4 DECOUPLING THE EU ETS FROM SUBSIDIZED RENEWABLES AND OTHER DEMAND SIDE EFFECTS - LESSONS FROM THE IMPACT OF THE EU ETS ON CO2 EMISSIONS IN THE GERMAN ELECTRICITY SECTOR 75 4.1 INTRODUCTION . 75 4.2 THE EU ETS IN THE GERMAN ELECTRICITY SECTOR . 78 4.3 CO2 REDUCTION IN THE GERMAN ELECTRICITY SECTOR . 80 4.3.1 ANALYSIS OF THE COUNTERFACTUAL SCENARIO WITHOUT ETS 85 4.3.2 CALCULATION OF EMISSION ABATEMENT INDUCED BY THE EU ETS . 87 4.4 READJUSTMENT OF THE EU ETS . 90 4.4.1 ANALYSIS OF EMPIRICAL DATA . 91 4.4.2 INTRODUCTION OF A UNILATERAL FLEXIBLE CAP . 92 VIII CONTENTS 4.4.3 EX-POST EVALUATION OF THE IMPACT OF A UNILATERAL FLEX IBLE CAP . 94 4.5 CONCLUSIONS . 98 5 RECONCILING EMISSIONS TRADING AND THE PROMOTION OF RENEW ABLE ENERGY 101 5.1 INTRODUCTION . 101 5.2 MODEL . 103 5.2.1 LINEAR MAC . 105 5.2.2 WORST-CASE ANALYSIS . 109 5.2.3 MAC AS CONICAL COMBINATION OF POWER FUNCTIONS . . . 114 5.3 EMPIRICAL APPLICATION OF THE CONTROL MECHANISM . 117 5.3.1 INDICATOR TO EVALUATE THE SUCCESS OF THE EU ETS . . 118 5.3.2 INDICATOR TO EVALUATE THE SUCCESS OF RES . 119 5.3.3 RESULTS OF THE EMPIRICAL APPLICATION OF THE MODEL . . 120 5.4 CONCLUSIONS . 124 6 ON THE FUNCTIONING OF A CAPACITY MARKET WITH AN INCREASING SHARE OF RENEWABLE ENERGY 127 6.1 INTRODUCTION . 127 6.2 CAPACITY AUCTIONS WITH RELIABILITY OPTIONS . 129 6.3 SPOT MARKET EQUILIBRIUM IN THE PRESENCE OF A CAPACITY MARKET 132 6.3.1 INCENTIVES FOR AN INVESTMENT IN POWER PLANTS . 134 6.3.2 RATIONAL BIDDING BEHAVIOR IN A CAPACITY MARKET . . . 135 6.3.2.1 INCENTIVE REGULATION . 136 6.3.2.2 EQUILIBRIUM CONDITION . 138 6.4 MARKET IMPACTS . 140 6.4.1 IMPACT OF POWER PLANT MATURITY . 141 6.4.2 IMPACT OF SUNK COSTS . 142 6.4.3 IMPACT OF CARBON EMISSION COSTS . 143 6.4.4 IMPACT OF AN INCREASING SHARE OF RENEWABLE ENERGY . 144 6.5 NUMERICAL EXAMPLE . 147 6.5.1 MARKET EQUILIBRIUM . 147 6.5.2 RISK REDUCTION . 148 6.5.3 IMPACT OF AN INCREASING SHARE OF RENEWABLE ENERGY . 149 6.6 CONCLUSIONS . 152 7 CAPACITY AUCTION DESIGN ADJUSTED TO THE TRANSITION TOWARDS A RENEWABLE-BASED ELECTRICITY GENERATION 155 7.1 INTRODUCTION . 155 7.2 GENERAL CAPACITY AUCTION DESIGN . 157 IX CONTENTS 7.3 MODELING THE INTERNALIZATION OF EXTERNAL COSTS . 159 7.3.1 THEORETICAL BACKGROUND ON EXTERNAL COSTS . 160 7.3.2 CONSIDERATION OF PROMOTION COSTS FOR RES . 161 7.3.3 CALCULATION OF THE ADJUSTED EMISSION PRICE . 164 7.3.4 PRICE DISCRIMINATION . 166 7.4 IMPLICATIONS OF THE CAPACITY AUCTION DESIGN . 171 7.5 CONCLUSIONS . 172 8 CONCLUSIONS 173 APPENDIX A 177 A. L MAXIMUM CONDITIONS AND EULER-EQUATIONS . 177 A. 2 PARAMETER VALUES . . . 178 A. 3 PROGRAM CODE TO INCLUDE EMISSION ABATEMENT AS ECONOMIC SHOCK . 179 APPENDIX B 185 B. L MODEL EFFECTS OF INFLATED PRICE BIDS . 185 B.1.1 PROOF OF LEMMA 1 . 187 APPENDIX C 191 C. L EMPIRICAL DATA AND CALCULATIONS . 191 APPENDIX D 195 D. L WORST-CASE ANALYSIS OF ADDITIONAL ABATEMENT COSTS . 195 B.1.1 LINEAR MAC . 195 D.L. 1.1 INTRODUCTION OF A NECESSARY CONSTRAINT . . . 198 D.L. 2 MAC APPROXIMATED BY WEAK CONVEX POWER FUNCTIONS 200 D.L. 2.1 MAXIMIZATION WITH RESPECT TO INITIAL COSTS . 202 D.1.3 MAC APPROXIMATED BY A CONICAL COMBINATION OF WEAK CONVEX POWER FUNCTIONS . 203 D.L. 3.1 MAXIMIZATION WITH RESPECT TO INITIAL COSTS . 204 D.L. 3.2 MAXIMIZATION WITH RESPECT TO THE RATIO OF COEFFICIENTS 6I . 206 D. 1.3.3 REDUCTION TO SINGLE POWER FUNCTIONS . 207 D.2 EMPIRICAL DATA AND CALCULATIONS . 209 D.3 PROGRAM CODE TO MAXIMIZE A C RE I FOR DIFFERENT EXPONENTS AND SLOPE RATIOS . 212 D.4 PROGRAM CODE TO MAXIMIZE A C RE I WITH RESPECT TO B R . 213 REFERENCES 221 X
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oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-032405886
oclc_num	1225881644
open_access_boolean
owner	DE-1028
owner_facet	DE-1028
physical	XVII, 243 Seiten Illustrationen 25 cm
publishDate	2020
publishDateSearch	2020
publishDateSort	2020
publisher	KLS GbR
record_format	marc
spelling	Schäfer, Sebastian Verfasser aut On the economics of renewable energy in electricity generation Sebastian Schäfer Siegen KLS GbR [2020] XVII, 243 Seiten Illustrationen 25 cm txt rdacontent n rdamedia nc rdacarrier Dissertation Universität Siegen 2018 Wirtschaftlichkeit (DE-588)4066424-7 gnd rswk-swf Erneuerbare Energien (DE-588)4068598-6 gnd rswk-swf Technologie (DE-588)4059276-5 gnd rswk-swf (DE-588)4113937-9 Hochschulschrift gnd-content Erneuerbare Energien (DE-588)4068598-6 s Technologie (DE-588)4059276-5 s Wirtschaftlichkeit (DE-588)4066424-7 s DE-604 B:DE-101 application/pdf https://d-nb.info/1202396879/04 Inhaltsverzeichnis DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032405886&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p dnb 20201028 DE-101 https://d-nb.info/provenance/plan#dnb
spellingShingle	Schäfer, Sebastian On the economics of renewable energy in electricity generation Wirtschaftlichkeit (DE-588)4066424-7 gnd Erneuerbare Energien (DE-588)4068598-6 gnd Technologie (DE-588)4059276-5 gnd
subject_GND	(DE-588)4066424-7 (DE-588)4068598-6 (DE-588)4059276-5 (DE-588)4113937-9
title	On the economics of renewable energy in electricity generation
title_auth	On the economics of renewable energy in electricity generation
title_exact_search	On the economics of renewable energy in electricity generation
title_exact_search_txtP	On the economics of renewable energy in electricity generation
title_full	On the economics of renewable energy in electricity generation Sebastian Schäfer
title_fullStr	On the economics of renewable energy in electricity generation Sebastian Schäfer
title_full_unstemmed	On the economics of renewable energy in electricity generation Sebastian Schäfer
title_short	On the economics of renewable energy in electricity generation
title_sort	on the economics of renewable energy in electricity generation
topic	Wirtschaftlichkeit (DE-588)4066424-7 gnd Erneuerbare Energien (DE-588)4068598-6 gnd Technologie (DE-588)4059276-5 gnd
topic_facet	Wirtschaftlichkeit Erneuerbare Energien Technologie Hochschulschrift
url	https://d-nb.info/1202396879/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032405886&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT schafersebastian ontheeconomicsofrenewableenergyinelectricitygeneration

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