Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/policy-innovation-for-technology-diffusion-a-case-study-of-japanese-zWhy2rAkx8
References (39)
-
M Howlett, M Ramesh (2003)
Studying public policy: policy cycles and policy subsystems -
Adrian Smith, A. Stirling, F. Berkhout (2005)
The governance of sustainable socio-technical transitionsResearch Policy, 34
-
Általános tudományok (2010)
Diffusion of Innovations -
J. Meadowcroft (2011)
Engaging with the politics of sustainability transitionsEnvironmental innovation and societal transitions, 1
-
J. Sawin, Freyr Sverrisson (2014)
Renewables 2014 : global status report -
J. Bergh, B. Truffer, G. Kallis (2011)
Environmental innovation and societal transitions: Introduction and overviewEnvironmental innovation and societal transitions, 1
-
(2011)
Sustainable energy policy in Japan: post Fukushima -
M. Harmelink, M. Voogt, C. Cremer (2006)
Analysing the effectiveness of renewable energy supporting policies in the European UnionEnergy Policy, 34
-
(2007)
ed) Prices for renewable energies in Europe: feed-in tariffs versus quota systems—a comparison -
Ruth Eblen, William Eblen (1994)
The Encyclopedia of the Environment -
P. Menanteau, D. Finon, Marie-Laure Lamy (2003)
Prices versus quantities: choosing policies for promoting the development of renewable energyEnergy Policy, 31
-
R. Wiser, G. Barbose, Edward Holt (2010)
Supporting solar power in renewables portfolio standards: Experience from the United StatesEnergy Policy, 39
-
N. Nakicenovic, A. Grubler (1991)
Diffusion of Technologies and Social Behavior -
Gloria Skurzynski, A. Ferguson (2002)
Valley of Death -
J. Sandeman (2010)
Feed‐In Tariffs: Accelerating the Deployment of Renewable EnergyInternational Journal of Environmental Studies, 67
-
L. Hein (1990)
Fueling Growth: The Energy Revolution and Economic Policy in Postwar JapanThe Journal of Asian Studies, 50
-
M. Decker (2001)
Interdisciplinarity in technology assessment : implementation and its chances and limits -
R Haas, NI Meyer, A Held, D Finon, A Lorenzoni, R Wiser, K Nishio (2008)
Promoting electricity from renewable energy sources: lessons learned from the EU, United States, and JapanCompet Electr Markets, 2008
-
V Mahajan, RA Peterson (1985)
Models for innovation diffusion: quantitative applications in the social sciences -
Jack Walker (1969)
The Diffusion of Innovations among the American StatesAmerican Political Science Review, 63
-
D. Cyranoski (2011)
Japan rethinks its energy policyNature, 473
-
R. Haas, N. Meyer, A. Held, D. Finon, A. Lorenzoni, R. Wiser, Ken-ichiro Nishio (2008)
Promoting electricity from renewable energy sources -- lessons learned from the EU, U.S. and JapanLawrence Berkeley National Laboratory
-
L. Barreto, R. Kemp (2008)
Inclusion of Technology Diffusion in Energy-systems Models: Some Gaps and NeedsJournal of Cleaner Production, 16
-
(2009)
NGOs and climate change: shall we all just go home? Global Dashboard -
K. Rao, V. Kishore (2009)
Wind power technology diffusion analysis in selected states of IndiaRenewable Energy, 34
-
D. Elliott, L. Cohen, R. Noll (1991)
The Technology Pork BarrelTechnology and Culture, 34
-
Joseph Garcea (1996)
Studying Public Policy: Policy Cycles and Policy Subsystems Michael Howlett and M. Ramesh Toronto: Oxford University Press, 1995, pp. viii, 239Canadian Journal of Political Science, 29
-
David Dolowitz, D. Marsh (1996)
Who Learns What from Whom: A Review of the Policy Transfer LiteraturePolitical Studies, 44
-
J. Weyant (2011)
Accelerating the development and diffusion of new energy technologies: Beyond the “valley of death”Energy Economics, 33
-
Staffan Jacobsson, Anna Johnson (2000)
The diffusion of renewable energy technology: an analytical framework and key issues for researchEnergy Policy, 28
-
A. Purvis (1992)
The Technology Pork BarrelIee Review, 38
-
P. Sabatier (1999)
Theories of the Policy Process -
M. Sharif (1986)
Models for innovation diffusion: Vijay Mahajan and Robert A. Peterson; A Sage University Series on “Quantitative Applications in the Social Sciences,” No. 07-048, Sage, Beverly Hills, 1985.Technological Forecasting and Social Change, 29
-
G. Simbolotti (2008)
Energy Technology Perspectives 2008, 54
-
A Smith, A Stirling, F Berkhout (2005)
The governance of sustainable socio-technical transitions: a quasi-evolutionary modelRes Policy, 34
-
R. Hirsh (1999)
PURPA: The Spur to Competition and Utility RestructuringThe Electricity Journal, 12
-
M. Harris (2002)
Energy market restructuring and the environment : governance and public goods in globally integrated markets -
J. Rotmans, R. Kemp, M. Asselt (2001)
Transition Management: a promising policy perspective -
E. Rogers (1964)
Diffusion of innovationsEncyclopedia of Sport Management
- Publisher
- Springer Journals
- Copyright
- Copyright © 2012 by Springer
- Subject
- Environment; Environmental Management; Climate Change Management and Policy; Environmental Economics; Landscape Ecology; Sustainable Development; Public Health
- ISSN
- 1862-4065
- eISSN
- 1862-4057
- DOI
- 10.1007/s11625-012-0175-3
- Publisher site
- See Article on Publisher Site
Abstract
Due to local scarcity of fossil fuel reserves, deployment of renewable energy has been on the Japanese government energy policy agenda for decades. While a significant amount of government budget was being allocated to renewables Research and Development, in contrast very little attention was paid to public support for renewable energy deployment. Against this background, in 2003, the Japanese government enacted legislation based on the renewable portfolio standard (RPS) scheme, which requires electricity retailers to supply a certain amount of electricity from renewable sources to grid consumers. The RPS legislation had been expected to ensure market efficiency, as well as bringing a steady increase in renewable capacity. Later, in 2009, the feed-in tariff (FIT) scheme was introduced to let electricity utilities purchase electricity generated from renewable energy sources with regulated prices. This paper aims to use the choice of renewable policy as a case-study to understand barriers for policy transfer and innovation, mainly through comparative studies between RPS and FIT in Japan. The result of this study shows that, in Japan, most policy-makers face the ‘lock-in’ of existing technology, which frustrates the deployment of renewable energy. For this reason, there is reluctance to allow experimentation that could promote a shift to other energy sources. In order to achieve the rapid change towards green industry, innovation policy needs to be implemented through effective and efficient methods, such as a carbon tax for fossil fuels; enlargement of renewable energy deployment to sources such as wind, geothermal and solar; and conducting further studies toward public preference and willingness to pay for the new clean energy sources.
Journal
Sustainability Science – Springer Journals
Published: Jun 23, 2012