|
|
The Research Framework and Review for Energy Transition Driven by SocioTechnical Transition |
Guo Pibin1,Li Fanrong1,Lv Wendong2,Zhao Yang3 |
(1.Department of Economic,Taiyuan Normal University,Taiyuan 030619,China; 2.International Business School,University of International Business and Economics,Beijing 100029,China; 3.CCIE of Central University of Finance and Economics,Beijing 100081,China) |
|
|
Abstract Under the pressure of energy shortage and deterioration of ecological environment,all countries are searching effective ways of energy transition.But there is no mature theory on how to effectively guide the practice of energy transformation.By reviewing the existing literature,this paper summarizes the previous studies on energy transition from the perspective of socialtechnological transition and combines the theoretical framework of sociotechnical transition with the practical activities of energy transition.The literature review shows that the existing theoretical framework of energy transition driven by sociotechnical transition is “influence factors power mechanism governance policy”.By combing and reviewing the literature,this paper analyzes the potential research direction in this field,emphasizes the identification of the dynamic factors of the sociotechnical transition in promoting energy transition,confirmation of different participants,and construction of the governance policies.
|
Received: 15 February 2019
|
|
|
|
|
[1]LI K,LIN B,LIU X.How policy strategies affect clean coal technology innovation in China? a patent -based approach[J].Energy & Environment,2015(26):1015-1033. [2] HE G.China's clean power transition:current status and future prospect[J].Resources,Conservation and Recycling,2017(121):3-10. [3] ARRANZ A M.Lessons from the past for sustainability transitions?a meta-analysis of socio-technical studies [J].Global Environmental Change,2017,4(44) :125-143. [4] TOMAIN J P.A perspective on clean power and the future of US energy politics and policy[J].Utilities Policy,2016(39):5-12. [5] 郭丕斌,周喜君,李丹,等.煤炭资源型经济转型的困境与出路:基于能源技术创新视角的分析[J].中国软科学,2013(7):39-46. [6] 郭丕斌,李丹,周喜君.技术锁定状态下煤炭资源型经济转型的出路与对策[J].经济问题,2015(12):24-27. [7] GUO P,WANG T,LI D,ZHOU X.How energy technology innovation affects transition of coalresource-based economy in China [J].Energy Policy,2016 (92):1-6. [8] GEELS F W.Reducing energy demand through low carbon innovation:a socio-technical transitions perspective and thirteen research debates [J].Energy Research & Social Science,2018(40):23-35. [9] KEMP R.Assessing the Dutch energy transition policy:how does it deal with dilemmas of managing transitions[J].Journal of Environmental Policy & Planning,2007( 9):315-331. [10]DOSI G.Technological paradigms and technological trajectories:a suggested interpretation of the determinants and directions of technical change[J].Research Policy,1982,11(3):147-162. [11] KEMP R,SCHOT J,HOOGMA R.Regime shifts to sustainability through processes of niche formation:the approach of strategic niche management [J].Technology Analysis & Strategy Management,1998(10):175-198. [12] HEKKERT M P,SUURS RA A,NEGRO S O,et al.Functions of innovation systems:a new approach for analysing technological change[J].Technological Forecasting & Social Chang,2007(74):413-432. [13] WOLFRAM P,WIEDMANN T.Electrifying Australian transport:hybrid life cycle analysis of a transition to electric light-duty vehicles and renewable electricity[J].Applied Energy,2017(206):531-540. [14] NORBERTO C,GONZALEZ-BRAMBILA C N,MATSUMOTO Y.Systematic analysis of factors affecting solar PV deployment[J].Journal of Energy Storage,2016(6):163-172. [15] FORD R.Emerging energy transitions:PV uptake beyond subsidies[J].Technological Forecasting & Social Change,2017(117):138-150. [16] 潘家华.转型发展推动金砖国家环境合作[J].拉丁美洲研究,2017(8):75-85+156. [17] OSUNMUYIWA O,KALFAGIANNI A.The oil climax:can Nigeria′s fuel subsidy reforms propel energy transitions[J].Energy Research & Social Science,2017(27):96-105. [18] LUTZ L M.Driving factors for the regional implementation of renewable energy——a multiple case study on the German energy transition[J].Energy Policy,2017(105):136-147. [19] RUGGIERO S,MARTISKAINEN M,ONKILA T.Understanding the scaling-up of community energy niches through strategic niche management theory:insights from Finland[J].Journal of Cleaner Production,2018 (170):581-590. [20] QI T,WENG Y,ZHANG X,HE J.An analysis of the driving factors of energy-related CO2 emission reduction in China from 2005 to 2013[J].Energy Economics,2016(60):15- 22. [21] XIE X,SHAO S,LIN B.Exploring the driving forces and mitigation pathways of CO2 emissions in China's petroleum refining and coking industry:1995—2031[J].Applied Energy,2016(184) :1004-1015. [22] NIE H,KEMP R,XU J,et al.Drivers of urban and rural residential energy consumption in China from the perspectives of climate and economic effects[J].Journal of Cleaner Production,2018 (172):2954-2963. [23] LIN B,OMOJU O E.Focusing on the right targets:economic factors driving non-hydro renewable energy transition[J].Renewable Energy,2017(113):52-63. [24] 苏竣,张芳.政策组合和清洁能源创新模式:基于光伏产业的跨国比较研究[J].国际经济评论,2015(9):132-142. [25] 王宏起,汪英华,武建龙,等.新能源汽车创新生态系统演进机理——基于比亚迪新能源汽车的案例研究[J].中国软科学,2016(4):81-94. [26] 张永安,周怡园.新能源汽车补贴政策工具挖掘及量化评价[J].中国人口·资源与环境,2017(10):188-197. [27] 邓翔,瞿小松.温室气体减排联盟及其稳定性分析——基于博弈论视角[J].北京理工大学学报:社会科学版,2017(5):25-32. [28] FORTES P,ALVARENGA A,SEIXAS J,et al.Long-term energy scenarios:bridging the gap between socio-economic storylines and energy modeling[J].Technology Forecasting & Social change,2015(91):161-178. [29] NATARAJAN S,LEVERMORE G J.Domestic futures—which way to a low-carbon housing stock[J].Energy Policy,2007(35):5728-5736. [30] MUELLER MG,DE HAAN P.How much do incentives affect car purchase? agent-based microsimulation of consumer choice of new cars-part I:model structure,simulation of bounded rationality,and model validation[J].Energy Policy,2009(37):1072-1082. [31] GERST M D,WANG P,ROVENTINI A,et al.Agent-based modeling of climate policy:an introduction to the engage multi-level model framework[J].Environment Modeling Software,2013(44):62-75. [32] TRUFFER B,SCHIPPL J,FLEISCHER T.Decentering technology in technology assessment:prospects for socio-technical transitions in electric mobility in Germany[J].Technological Forecasting & Social Change,2017,5(122):34-48. [33] ROBERTS C.Discursive destabilisation of socio-technical regimes:negative storylines and the discursive vulnerability of historical American railroads[J].Energy Research & Social Science,2017,6(31) :86-99. [34] COWELL R,ELLIS G.Energy transitions,sub-national government and regime?exibility:how has devolution in the United Kingdom affected renewable energy development[J].Energy Research & Social Science,2017(23):169-181. [35] HUANG P,BROTO V C,LIU Y,et al.The governance of urban energy transitions:a comparative study of solar water heating systems in two Chinese cities[J].Journal of Cleaner Production,2018(180):222-231. [36] MORI A.Socio-technical and political economy perspectives in the Chinese energy transition [J].Energy Research & Social Science,2018(35):28-35. [37] MAH N,WU Y,HILLS P.Explaining the role of incumbent utilities in sustainable energy transitions:a case study of the smart grid development in China[J].Energy Policy,2017(109) :794-806. [38] ORNETZEDER M,ROHRACHER H.Of solar collectors,wind power,and car sharing:comparing and understanding successful cases of grassroots innovations[J].Global Environmental Change,2013,1(23) :856-867. [39] SCHWEIZER P.Public participation for infrastructure planning in the context of the German "energiewende"[J].Utilities Policy,2016(43):206-209. [40] ANGEL D,ROCK M T. Environmental rationalities and the development state in East Asia:prospects for a sustainability transition[J].Technological Forecasting & Social Change,2009(76):229-240. [41] HOFFMANN S,WEYER J.Discontinuation of the automobility regime? an integrated approach to multi-level governance [J].Transportation Research Part A.2017,7(103):391-408. [42] KLITKOU A.The role of lock-in mechanisms in transition processes:the case of energy for road transport[J].Environmental Innovation & Societal Transitions,2015,7(16) :22-37. [43] GUI E M,MACGILL I.Typology of future clean energy communities:an exploratory structure,opportunities,and challenges[J].Energy Research & Social Science,2018(35):94-107. [44] 游达明,刘芸希.中国清洁发展机制项目分布的区域差异性研究[J].生态经济,2016(5):95-101. [45] BOON W,BAKKER S.Learning to shield-policy learning in socio-technical transitions[J].Environmental Innovation and Societal Transitions,2016(18):181-200. [46] KUZEMKO C.Policies,politics and demand side innovations:the untold story of Germany's energy transition[J].Energy Research & Social Science,2017(28):58-67. [47] BALDWIN E.Distributed resources and distributed governance:stakeholder participation in demand side management [J].Energy Research & Social Science,2018(39):37-45. [48] SARRICAA M.A multi-scale examination of public discourse on energy sustainability in Italy:empirical evidence and policy implications[J].Energy Policy,2018(114):444-454. [49] QUITZAU M,HOFFMANN B,ELLE M.Local niche planning and its strategic implications for implementation of energy-efficient technology[J].Technological Forecasting & Social Change,2012(79):1049-1058. [50] 史丹.推进中国能源转型的供给侧措施[J].China Economist,2017(1):80-97. [51] 朱彤.识别能源转型的当前问题与未来挑战——以德国为例(上)[J].能源,2017(2):58-61. [52] 何继江.冰岛的能源转型(下)[J].风能,2017(9):12-14. [53] 魏一鸣.气候变化综合评估模型研究新进展[J].系统工程理论与实践,2013(8):1905-1915. [54] 毕克新,付珊娜,杨朝均,等.制造业产业升级与低碳技术突破性创新互动关系研究[J].中国软科学,2017(12):141-153. [55] 黄鲁成,杨学君.新兴技术与新兴产业协同演化规律探析[J].科技进步与对策,2014(1):72-78.〖ZK)〗
|
[1] |
. [J]. SCIENCE & TECHNOLOGY PROGRESS AND POLICY, 2018, 35(24): 155-163. |
|
|
|
|