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The political logics of clean energy transitions

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  • Breetz, Hanna
  • Mildenberger, Matto
  • Stokes, Leah

Abstract

Technology costs and deployment rates, represented in experience curves, are typically seen as the main factors in the global clean energy transition from fossil fuels towards low-carbon energy sources. We argue that politics is the hidden dimension of technology experience curves, as it affects both costs and deployment. We draw from empirical analyses of diverse North American and European cases to describe patterns of political conflict surrounding clean energy adoption across a variety of technologies. Our analysis highlights that different political logics shape costs and deployment at different stages along the experience curve. The political institutions and conditions that nurture new technologies into economic winners are not always the same conditions that let incumbent technologies become economic losers. Thus, as the scale of technology adoption moves from niches towards systems, new political coalitions are necessary to push complementary system-wide technology. Since the cost curve is integrated globally, different countries can contribute to different steps in the transition as a function of their individual comparative political advantages.

Suggested Citation

  • Breetz, Hanna & Mildenberger, Matto & Stokes, Leah, 2018. "The political logics of clean energy transitions," Business and Politics, Cambridge University Press, vol. 20(4), pages 492-522, December.
    • Handle: RePEc:cup:buspol:v:20:y:2018:i:04:p:492-522_00
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    Cited by:

    1. Joshua W. Busby & Johannes Urpelainen, 2020. "Following the Leaders? How to Restore Progress in Global Climate Governance," Global Environmental Politics, MIT Press, vol. 20(4), pages 99-121, Autumn.
    2. Chien, FengSheng & Vu, Trong Lam & Hien Phan, Thi Thu & Van Nguyen, Sang & Viet Anh, Nguyen Ho & Ngo, Thanh Quang, 2023. "Zero-carbon energy transition in ASEAN countries: The role of carbon finance, carbon taxes, and sustainable energy technologies," Renewable Energy, Elsevier, vol. 212(C), pages 561-569.
    3. Hotaling, Chelsea & Bird, Stephen & Heintzelman, Martin D., 2021. "Willingness to pay for microgrids to enhance community resilience," Energy Policy, Elsevier, vol. 154(C).
    4. Li, Yiying & Yan, Cheng & Ren, Xiaohang, 2023. "Do uncertainties affect clean energy markets? Comparisons from a multi-frequency and multi-quantile framework," Energy Economics, Elsevier, vol. 121(C).
    5. Grace Skogstad, 2020. "Mixed feedback dynamics and the USA renewable fuel standard: the roles of policy design and administrative agency," Policy Sciences, Springer;Society of Policy Sciences, vol. 53(2), pages 349-369, June.
    6. Sugandha Srivastav & Ryan Rafaty, 2023. "Political Strategies to Overcome Climate Policy Obstructionism," Papers 2304.14960, arXiv.org.
    7. Carol Hager & Nicole Hamagami, 2020. "Local Renewable Energy Initiatives in Germany and Japan in a Changing National Policy Environment," Review of Policy Research, Policy Studies Organization, vol. 37(3), pages 386-411, May.
    8. Mark Purdon & Julie Witcover & Colin Murphy & Sonya Ziaja & Mark Winfield & Genevieve Giuliano & Charles Séguin & Colleen Kaiser & Jacques Papy & Lewis Fulton, 2021. "Climate and transportation policy sequencing in California and Quebec," Review of Policy Research, Policy Studies Organization, vol. 38(5), pages 596-630, September.
    9. Christoph H. Stefes, 2020. "Opposing Energy Transitions: Modeling the Contested Nature of Energy Transitions in the Electricity Sector," Review of Policy Research, Policy Studies Organization, vol. 37(3), pages 292-312, May.
    10. Roger Karapin, 2020. "Household Costs and Resistance to Germany's Energy Transition," Review of Policy Research, Policy Studies Organization, vol. 37(3), pages 313-341, May.
    11. Nicolas Schmid & Leonore Haelg & Sebastian Sewerin & Tobias S. Schmidt & Irina Simmen, 2021. "Governing complex societal problems: The impact of private on public regulation through technological change," Regulation & Governance, John Wiley & Sons, vol. 15(3), pages 840-855, July.
    12. Srivastav, Sugandha & Rafaty, Ryan, 2021. "Five Worlds of Political Strategy in the Climate Movement," INET Oxford Working Papers 2021-07, Institute for New Economic Thinking at the Oxford Martin School, University of Oxford.
    13. Matthew Lockwood, 2022. "Policy feedback and institutional context in energy transitions," Policy Sciences, Springer;Society of Policy Sciences, vol. 55(3), pages 487-507, September.
    14. Shidore, Sarang & Busby, Joshua W., 2019. "What explains India's embrace of solar? State-led energy transition in a developmental polity," Energy Policy, Elsevier, vol. 129(C), pages 1179-1189.
    15. Ferguson-Cradler, Gregory, 2022. "Corporate strategy in the Anthropocene: German electricity utilities and the nuclear sudden stop," Ecological Economics, Elsevier, vol. 195(C).
    16. Mohammed, Sayeed & Desha, Cheryl & Goonetilleke, Ashantha, 2023. "Investigating the potential of low-carbon pathways for hydrocarbon-dependent rentier states: Sociotechnical transition in Qatar," Technological Forecasting and Social Change, Elsevier, vol. 189(C).
    17. Mukhtarov, Shahriyar & Mikayilov, Jeyhun I., 2023. "Could financial development eliminate energy poverty through renewable energy in Poland?," Energy Policy, Elsevier, vol. 182(C).
    18. Christoph H. Stefes & Carol Hager, 2020. "Resistance to Energy Transitions," Review of Policy Research, Policy Studies Organization, vol. 37(3), pages 286-291, May.
    19. Aklin, Michaël, 2021. "Do high electricity bills undermine public support for renewables? Evidence from the European Union," Energy Policy, Elsevier, vol. 156(C).
    20. Thomas Hale, 2020. "Catalytic Cooperation," Global Environmental Politics, MIT Press, vol. 20(4), pages 73-98, Autumn.
    21. Golinucci, Nicolò & Tonini, Francesco & Rocco, Matteo Vincenzo & Colombo, Emanuela, 2023. "Towards BitCO2, an individual consumption-based carbon emission reduction mechanism," Energy Policy, Elsevier, vol. 183(C).

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