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The Japan Renewable Energy Institute's “Proposal for the 2030 Energy Mix”

Published online by Cambridge University Press:  14 March 2025

Andrew DeWit
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Extract

On August 6, 2020 Japan's Renewable Energy Institute (REI) released a lengthy and ambitious “Proposals for the 2030 Energy Mix” (REI, 2020). The REI proposals are aimed Japan's strategic energy policy, currently under review. The proposals centre on the power sector, perhaps the most crucial element of any “green recovery” from Covid-19's massive economic impacts. The REI surveys Japan's electricity system and outlines a “sustainable electricity generation mix” consistent with what the REI views as Japan's principal challenges in the context of global energy trends and climate policy. In the REI's estimation, Japan could and should achieve a dramatic revamp of its power mix by 2030. The REI argue that more aggressive policy could allow Japan – in a decade - to attain a 45% share of renewable electricity generation (tripling solar and octupling wind). Over the same period, this massive and rapid expansion of renewable power would be backed up by a huge increase in power generation from natural gas. In tandem, both nuclear power and coal-fired generation would be completely eliminated from the power mix. If achieved, this would rank among the world's most far-reaching renewable energy programs.

Type
Research Article
Information
Asia-Pacific Journal , Volume 18 , Issue 17 , September 2020 , e4
Copyright
Copyright © The Authors 2020

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References

Bullard, Nathaniel (2020). “Renewable Power Will Soon Come Out on Top,” Bloomberg News, June 11.Google Scholar
Shimbun, Choushuu (2020). (in Japanese) “Tyrannical Renewable Energy: Local Communities Have Become a Hayfield For Big Business,” Choushuu Shimbun, July 2:Google Scholar
Chu, Lenora (2020). “German conservatives resist wind power, but not for reasons you'd think,” The Christian Science Monitor, February 13.Google Scholar
Cocklin, Jamison (2020). “LNG Developers Cast Wary Eye on U.S. Pipeline Woes as Second Wave Projects Advance,” Natural Gas Intelligence, August 14.Google Scholar
Davis, River (2020). “Renewables are Primed for Growth in Asia,” Wall Street Journal, August 30:Google Scholar
Hall, Max (2020). “Japan's struggle to drive down renewables costs,” PV Magazine, August 20.Google Scholar
Hammer, Stephen and Hallegate, Stephane, 2020, “Planning for the economic recovery from COVID-19: A sustainability checklist for policymakers,” World Bank, April 14.Google Scholar
IEA (2020a). “Clean energy progress after the Covid-19 crisis will need reliable supplies of critical minerals,” International Energy Agency, May 6:Google Scholar
IEA (2020b). “Germany 2020International Energy Agency, February.Google Scholar
IRENA (2020). “Costs,” International Renewable Energy Agency, August 10.Google Scholar
IRENA (2018). “Global Energy Transformation: A Roadmap to 2050,” International Renewable Energy Agency, April.Google Scholar
Iwamoto, Kentaro (22019). “Singapore aims to be Asia LNG hub as demand soars,” Nikkei Asian Review, December 30.Google Scholar
METI (2020). (in Japanese) “Power Survey Data, Summary of Results for April 2020,” Ministry of Economy, Trade and Industry Japan, August 3.Google Scholar
Shimbun, Nikkei (2020). (in Japanese) “No” to Renewable Energy: Local Ordinances Double Since 2017,” May 30.Google Scholar
Obayashi, Yuka (2020). “Japan Aims at 10 GW Offshore Wind Capacity by 2030, up to 45 GW in 2040,” Offshore Engineer, July 31.Google Scholar
Peel, Michael and Sanderson, Henry (2020). “EU sounds alarm on critical raw materials shortages,” Financial Times, August 31.Google Scholar
REI (2020). (in Japanese) “Proposals for the 2030 Energy Mix,” Renewable Energy Institute, Japan, August 6.Google Scholar
S&P Global (2020). “Japan starts regulatory discussions on phasing out inefficient coal-fired power plants,” S&P Global Platts, August 7.Google Scholar
Shepherd, Christian and Findlay, Stephanie (2020). “Virus drives shift away from coal except in China,” Financial Times, August 3.Google Scholar
Stern, Jonathan (2019) “Challenges to the Future of LNG: decarbonisation, affordability and profitability,” Oxford Institute for Energy Studies, October.CrossRefGoogle Scholar
Timera Energy (2020) “Asian LNG demand resilience in 5 charts,” Timera Energy, May 25.Google Scholar
WBG (2020), “Minerals for Climate Action: The Mineral Intensity of the Clean Energy Transition,” May 11, World Bank Group.Google Scholar
Mackenzie, Wood (2020) “Japan to exceed 2030 renewables target supported by US$100 billion investments,” Wood Mackenzie, August 19.Google Scholar
World Bank Group (2020), “Minerals for Climate Action: The Mineral Intensity of the Clean Energy Transition,” May 11, World Bank Group.Google Scholar
World Energy Council (2020). “Renewable Energy System Integration in Asia,” World Energy Council.Google Scholar
World Energy Council (2019). The Future of Nuclear: Diverse Harmonies in the Energy Transition. World Energy Council.Google Scholar
Shimbun, Yomiuri (2020). “Japan unearths rare metals essential for lithium-ion batteries off Pacific island,” Yomiuri Shimbun, August 22.Google Scholar