Sustainability and Innovation Coordinating Editor: Jens Horbach Series Editors: Eberhard Feess Jens Hemmelskamp Joseph Huber René Kemp Marco Lehmann-Waffenschmidt Arthur P.J. Mol Fred Steward Sustainability and Innovation Published Volumes: Jens Horbach (Ed.) Indicator Systems for Sustainable Innovation 2005. ISBN 978-3-7908-1553-5 Bernd Wagner, Stefan Enzler (Eds.) Material Flow Management 2006. ISBN 978-3-7908-1591-7 A. Ahrens, A. Braun, A.v. Gleich, K. Heitmann, L. Lißner Hazardous Chemicals in Products and Processes 2006. ISBN 978-3-7908-1642-6 Ulrike Grote, Arnab K. Basu, Nancy H. Chau (Eds.) New Frontiers in Enviromental and Social Labeling 2007. ISBN 978-3-7908-1755-3 Marco Lehmann-Waffenschmidt (Ed.) Innovations Towards Sustainability 2007. ISBN 978-3-7908-1649-5 Tobias Wittmann Agent-Based Models of Energy Investment Decisions 2008. ISBN 978-3-7908-2003-4 R. Walz, J. Schleich The Economics of Climate Change Policies 2009. ISBN 978-3-7908-2077-5 Barbara Praetorius • Dierk Bauknecht Martin Cames • Corinna Fischer Martin Pehnt • Katja Schumacher Jan-Peter Voß Innovation for Sustainable Electricity Systems Exploring the Dynamics of Energy Transitions Physica-Verlag A Springer Company Dr. Barbara Praetorius Dr. Corinna Fischer DIW Berlin - German Institute Verbraucherzentrale for Economic Research Bundesverband e.V. (vzbv) Energy & Environment Division Markgrafenstr. 66 Mohrenstraße 58 10969 Berlin 10117 Berlin Germany Germany [email protected] [email protected] Dr. Martin Pehnt Dierk Bauknecht IFEU Institut für Energie-und Öko-Institut e.V. - Institute for Applied Ecology Umweltforschung Energy & Climate Division Wilckensstr. 3 Merzhauser Straße 173 69120 Heidelberg 79100 Freiburg Germany Germany [email protected] [email protected] Martin Cames Dr. Katja Schumacher Dr. Jan-Peter Voß Öko-Institut e.V. - Institute for Applied Ecology Energy & Climate Division Novalisstr. 10 10115 Berlin Germany [email protected] [email protected] [email protected] ISBN 978-3-7908-2075-1 e-ISBN 978-3-7908-2076-8 Sustainability and Innovation ISSN 1860-1030 Library of Congress Control Number: 2008933550 © 2009 Physica-Verlag Heidelberg This work is subject to copyright. 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Cover design: WMXDesign GmbH, Heidelberg Printed on acid-free paper 9 8 7 6 5 4 3 2 1 springer.com Contents Preface........................................................................................................ix 1 Introduction.............................................................................................1 1.1 Electricity Systems under Transformation.........................................2 1.2 Shaping Innovation Towards Sustainability.......................................3 1.3 Empirical Foci of the Book.................................................................4 1.4 Structure of the Book..........................................................................6 References................................................................................................7 2 Transformation and Innovation in Power Systems.............................9 2.1 Systems in Flux: An Everlasting Path of Electricity Innovation........9 2.2 Are we Locked in a Carbon (and Nuclear) Trap?.............................13 2.3 Current Stimuli for Change..............................................................17 2.3.1 Impacts of Liberalization.........................................................17 2.3.2 Increasing Climate Change Concerns......................................20 2.3.3 Impulses from Technological Change.....................................21 2.4 Actors and Institutions of Change....................................................23 References..............................................................................................24 3 Towards a Systemic Understanding of Innovation............................29 3.1 Conceptualizing Innovation..............................................................29 3.2 Sustainability....................................................................................34 3.3 Systemic Perspectives on Innovation in Literature...........................37 3.4 Design of the Innovation Case Studies.............................................39 References..............................................................................................41 4 Micro Cogeneration..............................................................................45 4.1 Micro Cogeneration as an Innovation Cluster..................................45 4.2 Design Options and Sustainability Potential....................................48 4.2.1 Technological Variations.........................................................48 4.2.2 Operating Schemes..................................................................49 4.2.3 System Level Impacts.............................................................51 4.2.4 Ecological Performance...........................................................51 vi Contents 4.2.5 Economic Performance............................................................53 4.2.6 Micro Cogeneration Scenarios................................................55 4.3 The Innovation Process of Micro Cogeneration...............................56 4.3.1 Evolution of the Innovation System........................................57 4.3.2 Market Setting and Situation to Date.......................................59 4.3.3 General Reasons for Slow Diffusion in Germany...................61 4.3.4 Actors and Coalitions..............................................................62 4.4 Shaping the Innovation Process........................................................67 4.5 Conclusions......................................................................................71 References..............................................................................................74 5 Carbon Capture and Storage...............................................................77 5.1 CCS as an Innovation to the Electricity System...............................77 5.2 Design Options and Sustainability Potential....................................78 5.2.1 Technological Variations.........................................................78 5.2.2 Ecological Performance...........................................................84 5.2.3 Economic Performance............................................................88 5.2.4 CO Mitigation Scenarios for the Electricity System..............91 2 5.3 The Innovation Process of CCS........................................................93 5.3.1 Research and Development Activities.....................................93 5.3.2 CCS Actors and Constellations in Germany...........................96 5.3.3 Development of the Institutional Framework........................101 5.4 Shaping the Innovation Process......................................................103 5.5 The Future of CCS in a Sustainable Electricity System.................106 References............................................................................................109 6 Consumer Feedback through Informative Electricity Bills............115 6.1 Introduction....................................................................................115 6.2 Description of Innovation and Design Options..............................116 6.2.1 General Design Options........................................................116 6.2.2 Example: Design Options for Electricity Bills in Germany..118 6.3 Effects and Sustainability Potential of Consumer Feedback..........123 6.3.1 Electricity Conservation........................................................124 6.3.2 Satisfying Consumer needs...................................................126 6.3.3 Case study: Informative Energy Bills in Heidelberg............126 6.3.4 Some Conclusions for Feedback Design...............................130 6.4 Process of Innovation and Factors Influencing It...........................131 6.4.1 Origin and Transfer of the Innovation...................................131 6.4.2 Implementation in Germany..................................................134 6.5 Possibilities for Shaping.................................................................140 Contents vii 6.5.1 Short-term and Long-term Options.......................................140 6.5.2 Introducing the Informative Electricity Bill: Problems.........141 6.5.3 The Role of Actors Other than Politics and Utilities............143 6.6 Conclusions....................................................................................144 References............................................................................................147 7 Emissions Trading..............................................................................151 7.1 Introduction....................................................................................151 7.2 Design Options...............................................................................152 7.2.1 Scope and Coverage: What Sources Shall be Included?.......152 7.2.2 Cap: How Much is Allowed?................................................153 7.2.3 Allocation: Who Gets what and how?...................................153 7.2.4 Banking: When can Allowances be Used?............................158 7.2.5 Commitment Periods: What is the Planning Horizon?.........159 7.2.6 The Interplay of Design and Sustainability...........................161 7.3 Process of Innovation: Networks, Politics, Institutions..................164 7.3.1 The Innovation Journey of Emissions Trading.....................164 7.3.2 Gestation: Emerging Practices of Flexible Regulation and New Options in Economic Theory.................................165 7.3.3 Proof of Principle: Creating Spaces for First Developments at US EPA in the Shadow of the Old Regime.......................166 7.3.4 Embedding a Prototype: Project 88 and the Transformation of US Clean Air Policy..........................................................168 7.3.5 Regime Formation: Linkage with International Climate Policy, the Carbon Industry and EU Emissions Trading.......170 7.3.6 The Allocation Process..........................................................173 7.3.7 Possible Future Developments...............................................178 7.4 Shaping the Innovation Process for the Sustainable Development of Electricity Systems...............................................179 7.5 Conclusions....................................................................................181 References............................................................................................185 8 Network Regulation............................................................................191 8.1 Introduction....................................................................................191 8.2 Design Options and Sustainability..................................................192 8.2.1 Design Options......................................................................192 8.2.2 Sustainability.........................................................................197 8.3 Process of Innovation.....................................................................201 8.3.1 Development of the ‘Standard Model’ of Network Regulation.............................................................................202 8.3.2 Reopening the ‘Standard Model’: Drivers of Change and the British Case..............................................................205 viii Contents 8.4 Possibilities for Shaping.................................................................214 8.4.1 Room for Change in the Standard Model..............................214 8.4.2 Developing Alternatives........................................................215 8.4.3 Broadening the Actor Arena..................................................216 8.5 Conclusions....................................................................................218 References............................................................................................221 9 Innovation Dynamics in the Electricity System: Progressing Towards a Sustainable Path?............................................................227 9.1 Overview and Summary.................................................................227 9.2 Explaining the Innovation Dynamics.............................................232 9.2.1 The Dynamic role of Institutions, Actors and Networks.......232 9.2.2 The Role of Blocking, Competing and Matching Innovations.............................................................................236 9.3 Shaping the Environment for Innovation Dynamics......................239 9.4 Some Final Remarks.......................................................................243 References............................................................................................245 Preface Innovation is a complex issue. It involves much more than a new idea to be realized, sometimes even the reconfiguration of reality. Successful innova- tions involve ‘creative destruction’ of existing patterns and the formation of new configurations that work. Such reconfigurations comprise cognitive, institutional, technical and behavioral elements. They also involve the coll- ective action of concerned actors, organizations and networks in order to be successful. The focus of this book is on the conditions and implications of sustain- able innovation in the electricity system. Our interest is to better understand the conditions and opportunities for innovation that could bring about a more sustainable situation than the current fossil and nuclear fuel-based electricity system in Germany. We look at various innovation processes that are ongoing and continuously shape the system of the future. Our inten- tion is to analyze and assess these processes with a view to identifying possibilities to shape innovation in the electricity system for sustainable development. To this end, we assess the potential of selected technological, societal, and institutional innovations, among others. This book is the final publication of more than five years of research in the interdisciplinary project “Transformation and Innovation in Power Sys- tems” (TIPS). It is also the result of collective action. The authors would like to thank Markus Duscha and Johannes Henkel for their contributions. The book benefited immensely from proofreading by Vanessa Cook. We also appreciate the helping hands of our team assistant Cornelia Wolter, our student assistants, Alexandra Börner, Nadine Braun, Katherina Grashof, Sebastian Knab, Anke Mönnig, and Christoph von Stechow. We grate- fully acknowledge funding of the TIPS research team (2002–2008) by the German Ministry for Education and Research within its Social-Ecological Research Framework. Barbara Praetorius, Dierk Bauknecht, Martin Cames, Corinna Fischer, Martin Pehnt, Katja Schumacher, Jan-Peter Voß Berlin and Heidelberg, May 2008 1 Introduction Innovation is key to achieving a sustainable electricity system. New technologies and behavioral change are needed to bring about radical re- ductions in carbon emissions, and to enhance energy security for today and the future generations. Also, innovation is a continuous process: it happens every day and builds a future in which coming generations will live. Inno- vation not only comprises new technology, but also new forms of organi- zation, new practices, new discourses and new insights on global and local concerns. Innovation is therefore deeply entwined with sustainable develop- ment. This is especially important in electricity where fundamental changes are ongoing while some great challenges lie ahead. There is climate change and there is still ongoing restructuring from liberalization. Classic issues like security of supply and affordability become reframed with geopolitical changes and a stronger role for market competition. What are the processes driving these changes? How is the future of electricity being shaped? What will this future look like? Will it be in line with various societal aspira- tions grouped together under the heading of “sustainable development”? If not, what are the options to change course, to shape ongoing processes of innovation so as to bring about a sustainable transformation of electricity systems? In this book we make an attempt at answering these questions by digging deeper at some selected points, aiming at laying bare some crucial proc- esses of renewal which are beneath the overwhelming impression of sys- tem transformation in electricity. These processes comprise the creation of novelty in areas as diverse as small distributed generation technology, large scale carbon clean-up technology, consumer information and feed- back methods, innovative forms of electricity market regulation and public policies for reducing the environmental burden of electricity production by issuing tradable emission certificates. We maintain that the future of elec- tricity is brought about through these (and other) ongoing innovation proc- esses and their interaction. We understand electricity transformation as the result of such diverse innovation processes. If we want to shape the future of electricity, we need to understand the dynamics and identify the specific potential for sustainable development in each specific process of innovation,