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| Title: | 中國太陽能發展模式研究: 以甘肅、山東為例
A Study of Chinese Solar Developmental Pattern: Case Study of Gansu and Shandong in China |
| Authors: | 賴俊魁
Lai, Chun-Kuei |
| Contributors: | 王振寰
Wang, Jenn-Hwan
賴俊魁
Lai, Chun-Kuei |
| Keywords: | 太陽能發展模式
社會發展
中國
甘肅
山東
Solar Power Developmental Pattern
Social Development
China
Gansu
Shandong |
| Date: | 2021 |
| Issue Date: | 2022-04-01 15:08:41 (UTC+8) |
| Abstract: | 對能源安全的關注已經引起了世界上大多數國家的關注,包括已開發國家和發展中國家。由於飽受污染之苦,中國從另一個角度展示了促進新能源生產和發展的意圖。隨著經濟的快速發展和對傳統化石燃料供應電力和熱力的依賴,中國飽受燃煤造成的空氣污染之苦。在巨大壓力下,中國將發展新能源和環境治理作為國家發展的重點,包括可再生能源法(2005)、新版可再生能源法(2010)以及一系列連續五年計劃(FYP)。
然而,在中央同樣的引導和刺激下,不同省份的行為和結果也不盡相同。省份中,西部內陸甘肅和沿海省份山東呈現出兩種不同的光伏發展模式。本研究要探索的核心研究問題是:“中央與地方互動中的利益捆綁如何塑造中國太陽能發展格局?”為了回答研究問題,本研究的主要研究方法是通過環境捆綁經濟利益法對甘肅和山東的發展模式進行比較。
The concern of energy security has attracted most of the countries around the world, including developed countries and developing countries. Suffering from pollution, China demonstrated the intention from another perspective to promote the production and development of new energy. With the rapid economic development and dependence on the supply of traditional fossil fuels to provide electricity and heat, China suffered from the air pollution caused by coal burning. Under great pressure, China turned the development of new energy and environmental governance into the priority of their national development, including Renewable Energy Law (2005), New version of Renewable Energy Law (2010), and a series of continuous Five Year Plan (FYP).
However, followed by the same guidance and stimulus from the central, different provinces resulted in different behaviors and results. Among the provinces, the inner province Gansu from the western part and the coastal province Shandong presented two diverse models on photovoltaic development. The core research question that this dissertation is going to explore is: “How bundled interests during the central-local interaction shaped the solar power development pattern in China?” To answer the research question, the main research method of this dissertation will conduct the comparison development model in Gansu and Shandong through Environmental Bundled Economic Interest Approach. |
| Reference: | Anue. (2018). Gansu`s Largest Solar Power Generation Project Started Construction
in Dunhuang. https://news.cnyes.com/news/id/2337328
Aolar. (2017). The Basic Situation and Outlook of the Development of Shandong
Solar power in 2017. https://kknews.cc/agriculture/x3ogeeg.html
Bell, A. (2017). Cultural Factors Influencing Chinese Residents and Students’ Views
on Solar Solar power Rooftop Adoption.
Cao, X., Kleit, A., & Liu, C. (2016). Why invest in wind energy? Career incentives
and Chinese renewable energy politics. Energy Policy, 99, 120-131.
CBAD. (2021). Case Study of Solar power Poverty Alleviation.
http://m.banyuetan.org/fpdxal/detail/20210426/1000200033138961619407069478366150_1.html
Cheng, C., Chen, F., Li, G., Ristić, B., Mirchi, A., Qiyu, T., & Madani, K. (2018).
Reform and Renewables in China: The Architecture of Yunnan`s Hydropower Dominated Electricity Market. Renewable and Sustainable Energy Reviews, 94, 682-693.
China Electric Power Knowledge Database. (2019). New installed Capacity and
Power Generation in Each Province.
Chinaland. (2015). China Solar Power Incentive and Subsidy Policy Standards.
http://www.chnland.com/news/zhengcewenjian/show-337.html
Chinapower: Solar Power Industry Annual Report. (2017).:
http://www.chinapower.com.cn/informationzxbg/20170517/77254.html
CPGPRC. (2012). Overview of China`s Energy Development in the "Eleventh Five-
Year" Period. http://big5.www.gov.cn/gate/big5/www.gov.cn/test/201206/26/
content_2169887.htm
Dazhong. (2021). Shandong`s Solar power Installed Capacity Continues to Rank First
in the Country. New Installed Capacity in the First Quarter Increased by 583% Year-on-year. https://news.cnstock.com/industry,rdjj-202105-4701032.htm
Ding, M., Xu, Z., Wang, W., Wang, X., Song, Y., & Chen, D. (2016). A Review on
China׳ s Large-scale PV Integration: Progress, Challenges and Recommendations. Renewable and Sustainable Energy Reviews, 53, 639-652.
DRCG. (2018). Notice of the Development and Reform Commission of the Gansu
Poverty Alleviation Office on Reporting the Implementation Plan of the Solar Power Poverty Alleviation Pilot. https://www.luoow.com/dc_tw/106702037
EnergyTrend. (2021). Gansu’s 14th Five-Year Plan: Wind-solar Installed Capacity of
More Than 50 Million Kilowatts Will Account for 65% in 2025 https://www.energytrend.cn/news/20210315-93387.html
EnergyTrends. (2017). China: Grid Investment Hits a New High, and the Amount of
Solar Abandonment Has Not Been Alleviated. https://www.energytrend.com.tw/news/20170321-14307713.html
EIC. (2016). China`s Wind Power Is in the Dilemma of Wind Curtailment Rate
Energy Trend. (2017) Several Advantages in Poverty Alleviation with Solar Power
Policy. https://www.energytrend.com.tw/features/20170317-14307698.html
EnergyTrend. (2012). Gansu`s "Twelfth Five-Year" Solar Power Development "Big
Ambition" Plan Installed Capacity Accounted for One-third in China. http://guangfu.bjx.com.cn/news/20121123/403665.shtml
Energy Trend Database. (2018). Solar Radiation Distribution in China:
https://www.energytrend.cn/knowledge/20180409-27769.htm
Fang, Y., & Wei, Y. (2013). Climate Change Adaptation on the Qinghai–Tibetan
Plateau: The Importance of Solar Energy Utilization for Rural Household. Renewable and Sustainable Energy Reviews, 18, 508-518.
Finance Sina. (2015) Major Agriculture Province in China. The Province with Great
Population like Shandong Come to the Top: http://finance.sina.com.cn/china/20150812/012922938906.shtml
Fang, Y., & Wei, Y. (2013). Climate Change Adaptation on the Qinghai–Tibetan
Plateau: The Importance of Solar Energy Utilization for Rural Household. Renewable and Sustainable Energy Reviews, 18, 508-518.
F. China. (2018). The First Batch of Village-level Solar Power Poverty Alleviation
Power Stations in Gansu Province during the 13th Five-Year Plan Period Achieved Grid-connected Power Generation. http://f.china.com.cn/2018-07/16/content_57296408.htm
Flynn, A., & Yu, L. (2020). The Protean Environmental State in Dongguan:
Reconceptualizing the local state and ecological development in China. Environment and Planning C: Politics and Space, 38(3), 443-463.
Flynn, A., Xie, L., & Hacking, N. (2020). Governing People, Governing Places:
Advancing the Protean Environmental State in China. Journal of Environmental Policy & Planning, 22(5), 724-744.
Geall, S., & Shen, W. (2018). Solar Energy for Poverty Alleviation in China: State
Ambitions, Bureaucratic interests, and local realities. Energy Research & Social
Science, 41, 238-248.
Gansugov. (2018). The Notice of "Gansu Province Solar Power Poverty Alleviation
Implementation Rules" http://www.gansu.gov.cn/art/2018/7/19/art_4786_387698.html
Geall, S., & Shen, W. (2018). Solar Energy for Poverty Alleviation in China: State
Ambitions, Bureaucratic Interests, and Local Realities. Energy Research &
Social Science, 41, 238-248.
Guo, Xiao-lin (2001). “Land Expropriation and Rural Conflicts in China.” The China Quarterly, Vol. 166:422-439.
Guanfu. (2020). The Current Development of Solar Development in China.
http://guangfu.bjx.com.cn/news/20200210/1041073.shtml ).
Habich, S. (2015). Dams, Migration and Authoritarianism in China: The Local State
in Yunnan. Routledge.
Han, J., Mol, A. P., Lu, Y., & Zhang, L. (2009). Onshore Wind Power Development in China: Challenges behind A Successful Story. Energy Policy, 37(8), 2941-2951.
Hang, Q., Jun, Z., Xiao, Y., & Junkui, C. (2008). Prospect of Concentrating Solar
Power in China—the Sustainable Future. Renewable and Sustainable Energy Reviews, 12(9), 2505-2514.
Hennig, T., & Harlan, T. (2018). Shades of Green Energy: Geographies of Small
Hydropower in Yunnan, China and the Challenges of Over-development. Global Environmental Change, 49, 116-128.
Hsing, You-tien (2010). The Great Urban Transformation: Politics and Property in China. New York: Oxford University Press.
Howes, M., Wortley, L., Potts, R., Dedekorkut-Howes, A., Serrao-Neumann, S.,
Davidson, J., ... & Nunn, P. (2017). Environmental sustainability: a case of policy implementation failure?. Sustainability, 9(2), 165.
Ho, P., & Edmonds, R. (Eds.). (2007). China`s Embedded Activism: Opportunities
and Constraints of a Social Movement. Routledge.
IN-EN. (2020). Research on the Status Quo and Related Development of Solar power
Poverty Alleviation Industry in Gansu Province. https://www.in-en.com/finance/html/energy-2244236.shtml
IN-EN. (2020). The Status Quo and Related Development of Solar Power Poverty
Alleviation Industry in Gansu Province. https://www.in-en.com/finance/html/energy-2244236.shtml
IN-EN. (2020). State Grid Shandong Electric Power Actively Carries out Solar power
Poverty Alleviation Work. https://solar.in-en.com/html/solar-2368024.shtml
IN-EN. (2021). Gansu: A ten-year breakthrough in a province with great scenery
https://solar.in-en.com/html/solar-2375133.shtml
ITRI. (2016). Energy Development in 13th FYP
https://km.twenergy.org.tw/Data/share?hkY9a72NxaV5I9DAf1g5sA==
Kostka, Genia & Hobbs, William (2012). Local Energy Efficiency Policy
Implementation in China: Bridging the Gap Between National Priorities and Local Interests. The China Quarterly, 211, 765–785.doi:10.1017/S0305741012000860
Kostka, G. (2016). Command without Control: The Case of China`s Environmental
Target System. Regulation & Governance, 10(1), 58-74.
Lang, G., & Xu, Y. (2013). Anti-incinerator Campaigns and the Evolution of Protest
Politics in China. Environmental Politics, 22(5), 832-848.
Li, Q., Zhou, L., Liu, Q., Zhang, F., & Wu, J. (2008). Simulative Research of MPPT
for Solar Power system [J]. Electric Power Automation Equipment, 7, 008.
Li, R., & Li, G. M. (2008). Solar Power Generation Output Forecasting Based on
Support Vector Machine Regression Technique. Electric Power, 2, 031. ISO 690
Liang, J., & Langbein, L. (2015). Performance Management, High-powered
Incentives, and Environmental Policies in China. International Public Management Journal, 18(3), 346-385. ISO 690
Liu, L., de Jong, M., & Huang, Y. (2016). Assessing the Administrative Practice of
Environmental Protection Performance Evaluation in China: the Case of Shenzhen. Journal of Cleaner Production, 134, 51-60.
Liu, S., Yang, Q., Cai, H., Yan, M., Zhang, M., Wu, D., & Xie, M. (2019). Market
Reform of Yunnan Electricity in Southwestern China: Practice, Challenges and Implications. Renewable and Sustainable Energy Reviews, 113, 109265.
Lieberthal, Kenneth G. (1992). “Introduction: The ‘Fragmented Authoritarianism’ Model and Its Limitations.” In Bureaucracy, Politics, and Decision Making in Post-Mao China. (Eds.) Kenneth Lieberthal and David Lampton. Berkeley and Los Angeles: University of California Press.
Lin, N. (1995). Local Market Socialism: Local Corporatism in Action in Rural China. Theory and Society, 24(3), 301-354.
Liu, L. Q., & Wang, Z. X. (2009). The Development and Application Practice of
Wind–solar Energy Hybrid Generation Systems in China. Renewable and Sustainable Energy Reviews, 13(6-7), 1504-1512.
Li, Y. W., Miao, B., & Lang, G. (2011). The Local Environmental State in China: A
Study of County-level Cities in Suzhou. The China Quarterly, 115-132.
Li, X., Yang, X., Wei, Q., & Zhang, B. (2019). Authoritarian Environmentalism and
Environmental Policy Implementation in China. Resources, Conservation and Recycling, 145, 86-93.
Lang, G., & Xu, Y. (2013). Anti-incinerator Campaigns and the Evolution of Protest
Politics in China. Environmental Politics, 22(5), 832-848.
Liu, S., Yang, Q., Cai, H., Yan, M., Zhang, M., Wu, D., & Xie, M. (2019). Market
Reform of Yunnan Electricity in Southwestern China: Practice, Challenges and Implications. Renewable and Sustainable Energy Reviews, 113, 109265.
Lieberthal, Kenneth G. (1992). “Introduction: The ‘Fragmented Authoritarianism’ Model and Its Limitations.” In Bureaucracy, Politics, and Decision Making in Post-Mao China. (Eds.) Kenneth Lieberthal and David Lampton. Berkeley and Los Angeles: University of California Press.
Lin, N. (1995). Local <arket socialism: Local Corporatism in Action in Rural China. Theory and Society, 24(3), 301-354.
Liu, L. Q., & Wang, Z. X. (2009). The Development and Application Practice of
Wind–solar Energy Hybrid Generation Systems in China. Renewable and Sustainable Energy Reviews, 13(6-7), 1504-1512.
Li, Y. W., Miao, B., & Lang, G. (2011). The Local Environmental State in China: a
Study of County-level Cities in Suzhou. The China Quarterly, 115-132.
Li, X., Yang, X., Wei, Q., & Zhang, B. (2019). Authoritarian Environmentalism and
Environmental Policy Implementation in China. Resources, Conservation and Recycling, 145, 86-93.
Lo, K. (2015). How Authoritarian Is the Environmental Governance of China?.
Environmental Science & Policy, 54, 152-159.
Ma, L., & Liang, J. (2018). The Effects of Firm Ownership and Affiliation on
Government’s Target Setting on Energy Conservation in China. Journal of Cleaner Production, 199, 459-465. ISO 690
Mai, H. (2016). Research on Applications of Solar Power in Countryside. ISO 690
Mori, A. (2011). Overcoming Barriers to effective environmental aid: a comparison
between Japan, Germany, Denmark, and the World Bank. The Journal of Environment & Development, 20(1), 3-26.
Mertha, Andrew C. (2009). “Fragmented Authoritarianism 2.0`: Political Pluralization in the Chinese Policy Process.” China Quarterly 200: 995-1012
New http://www.newenergy.org.cn/fn/fndt/201606/t20160603_337901.html
National Energy Administration. (2016). 2016 Implementation on Grid-Connected Wind Power Generation. www.nea.gov.cn/2017-01/26/c_136014615.htm.
National Energy Administration. (2016). The Increased Wind Curtailment Rate Was
As High As 21%. http://finance.sina.com.cn/roll/2016-07-28/docifxunyya2505920.shtml
NDRC (National Development and Reform Commission). (2016). 13th Five Year Plan
For Western Development. http://www.ndrc.gov.cn/zcfb/zcfbtz/201701/W020170123326950412269.pdf
National Science and Technology Commission "New Energy and Renewable Energy
Development Outline (1996-2010)" Chinese State Council. (2020). "China`s Energy Development in the New Era" White Paper
NEA (National Energy Association). (2011): 12th Five Year Plan on Solar Power
Generation Development: https://goo.gl/Yzvs8N
Newsinen. (2017). Ranking of Installed Power Station in Solar Power of China
Provinces (Power Station + Dispersed Generation System): http://www.in-en.com/article/html/energy-2259260.shtml
NEA (National Energy Association). (2011). China PV Development for 12th FYP.
http://zfxxgk.nea.gov.cn/auto87/201209/P020120912536329466033.pdf
NEA. (2012). The Twelfth Five-Year Plan for Solar Power Development.
https://policy.asiapacificenergy.org/sites/default/files/Solar%20Power%20Development%2012th%20FYP.pdf
NEA. (2016). The 13th Five-Year Plan for Solar Energy Development.
https://policy.asiapacificenergy.org/sites/default/files/IEA_PAMS_China_China13thSolarEnergyDevelopmentFiveYearPlan20162020.pdf
Ockwell, D., Newell, P., Geall, S., Mbeva, K., Shen, W., & Ely, A. (2017). The
Political Economy of State-led Energy Transformations: Lessons from Solar PV in Kenya and China.
Oi, J. C. (1992). Fiscal Reform and the Economic Foundations of Local State Corporatism in China. World Politics, 45(1), 99-126.
Oi, J. C. (1995). The Role of the Local State in China`s Transitional Economy. The China Quarterly, 144, 1132-1149.
Otsuka, K. (2007). Environmental Policy under Multi-stakeholder Governance in
China: Focusing on Implementation of Industrial Pollution Control. In Development of Environmental Policy in Japan and Asian Countries (pp. 199-226). Palgrave Macmillan, London.
Peidong, Z., Yanli, Y., Yonghong, Z., Lisheng, W., & Xinrong, L. (2009).
Opportunities and Challenges for Renewable Energy Policy in China. Renewable and Sustainable Energy Reviews, 13(2), 439-449.
People. (2018). State Grid Assists Gansu`s Wind Curtailment Rate "Double Drop"
Year-on-year. http://energy.people.com.cn/BIG5/n1/2018/0727/c71661-30172668.html
People. (2020). A Total of 1.26 million Kilowatts of Solar Power Poverty Alleviation
Projects in Gansu Have Been Connected to the Grid. http://gs.people.com.cn/BIG5/n2/2020/0806/c183348-34210002.html
People. (2020). Solar Power Poverty Alleviation and People`s Livelihood, Plant a
"Sun" and Run for a Well-off. http://gs.people.com.cn/BIG5/n2/2020/1015/c221817-34351295.html
Qian, Y., Wang, W., Leung, L. R., & Kaiser, D. P. (2007). Variability of Solar
Radiation under Cloud‐free Skies in China: The Role of Aerosols. Geophysical Research Letters, 34(12).
Qian, K., Zhou, C., Yuan, Y., Shi, X., & Allan, M. (2008, July). Analysis of the
Environmental Benefits of dispersed generation. In Power and Energy Society General Meeting-Conversion and Delivery of Electrical Energy in the 21st Century, 2008 IEEE (pp. 1-5). IEEE.
Qian, Y., Wang, W., Leung, L. R., & Kaiser, D. P. (2007). Variability of Solar
Radiation under Cloud‐free Skies in China: The Role of Aerosols. Geophysical Research Letters, 34(12).
Qian, K., Zhou, C., Yuan, Y., Shi, X., & Allan, M. (2008, July). Analysis of the
Environmental Benefits of Dispersed Generation. In Power and Energy Society General Meeting-Conversion and Delivery of Electrical Energy in the 21st Century, 2008 IEEE (pp. 1-5). IEEE.
Ramos, A., Chatzopoulou, M. A., Guarracino, I., Freeman, J., & Markides, C. N.
(2017). Hybrid Solar Power-thermal Solar Systems for Combined Heating, Cooling and Power Provision in the Urban Environment. Energy Conversion and Management, 150, 838-850. ISO 690.
Rousseau, J. F. (2017). Does Carbon Finance Make a Sustainable Difference?
Hydropower Expansion and Livelihood Trade‐offs in the Red River Valley, Yunnan Province, China. Singapore Journal of Tropical Geography, 38(1), 90-107.
Sheikh, N. J., Kocaoglu, D. F., & Lutzenhiser, L. (2016). Social and Political Impacts
of Renewable Energy: Literature Review. Technological Forecasting and Social Change, 108, 102-110. ISO 690
State Council of People’s Republic of China. (2005):
http://www.gov.cn/ziliao/flfg/2005-06/21/content_8275.htm.
Solar of Week. (2016). Do You Remember the 30 Dispersed Solar Power
Generation Systems? https://solar.ofweek.com/2016-01/ART-260009-8500-29055764.html)
Solar of the Week. (2016). Solar Power Greenhouse in Qingdao Serves as National
Sample: https://kknews.cc/finance/vzrvvq.html
Solarbe. (2016). Provincial Subsidy for Solar Power Generation. Shandong
Government Confirmed to Continue this Policy: https://news.solarbe.com/201609/09/102486.html
Solarbe. (2018). Supplementary of Agriculture and Solar Power + Solar power
Village+ Combination between Solar Power and Industrial Development: the Comprehensive Model in Weifang, Shandong: https://news.solarbe.com/201808/17/294710.html
Solarbe. (2018). Solar Power Development in Anqiu:
https://news.solarbe.com/201808/17/294710.html)
Solarbe. (2018). Gansu Solar Power Station Suffered a Serious Loss.
https://www.solarbe.com
Solarbe. (2020). Gansu 2021 Key Power Transmission and Transformation Project
Starts. https://m.solarbe.com/21-0-332042-1.html
State Grid Co. (2020). Gansu Power Grid`s Load Power Has Repeatedly Hit New
Highs, and the Increase in Power Sales Ranks First on the State Grid. https://power.in-en.com/html/power-2380085.shtml
Teets, J. C. (2013). Let Many Civil Societies Bloom: The Rise of Consultative
Authoritarianism in China. The China Quarterly, 19-38.
Tracy, E. F., Shvarts, E., Simonov, E., & Babenko, M. (2017). China’s New Eurasian
Ambitions: the Environmental Risks of the Silk Road Economic Belt. Eurasian Geography and Economics, 58(1), 56-88.
Wilmsen, B., & Van Hulten, A. (2017). Following Resettled People Over Time: the
Value of Longitudinal Data Collection for Understanding the Livelihood Impacts of the Three Gorges Dam, China. Impact Assessment and Project Appraisal, 35(1), 94-105.
Wang, Q. (2010). Effective Policies for Renewable Energy—the Example of China`s
Wind Power—Lessons for China`s Solar Power. Renewable and Sustainable Energy Reviews, 14(2), 702-712.
Walder, A. G. (1995). Local Governments as Industrial Firms: An Organizational Analysis of China`s Transitional Economy. American Journal of Sociology, 101(2), 263-301.
Wang, J.-H., Tseng, S.-W., and Zheng, H. (2015). "The Paradox of Small Hydropower: Local Government and Environmental Governance in China," Journal of Developmental Studies, 51(11) (November), 1475-1487
Wang Lei. (2020). Review and Prospect of New Energy Industry Development. China
Development Observation.
World Bank Group. 2011. Direct Normal Irradiation in China
https://www.energytrend.com.tw/research/20110325-1490.html
Xingang, Z., Xiaomeng, L., Pingkuo, L., & Tiantian, F. (2011). The Mechanism and
Policy on the Electricity Price of Renewable Energy in China. Renewable and Sustainable Energy Reviews, 15(9), 4302-4309.
Zhang, S., Zhao, X., Andrews-Speed, P., & He, Y. (2013). The Development
Trajectories of Wind Power and Solar PV Power in China: A Comparison and Policy Recommendations. Renewable and Sustainable Energy Reviews, 26, 322-331.
Zhang, S., Andrews-Speed, P., & Ji, M. (2014). The Erratic Path of the Low-carbon
Transition in China: Evolution of Solar PV Policy. Energy Policy, 67, 903-912.
Zhang, M., Zhou, D., & Zhou, P. (2014). A Real Option Model for Renewable Energy
Policy Evaluation with Application to Solar PV Power Generation in China. Renewable and Sustainable Energy Reviews, 40, 944-955.
Zhang, F., Deng, H., Margolis, R., & Su, J. (2015). Analysis of Dispersed-generation
Solar Power Deployment, Installation Time and Cost, Market Barriers, and Policies in China. Energy Policy, 81, 43-55.
Zhang, S. (2016). Analysis of DSPV (Dispersed solar PV) Power Policy in China.
Energy, 98, 92-100. ISO 690
Zhao, X., Zeng, Y., & Zhao, D. (2015). Dispersed Solar Powers in China:
Policies and Economic Performance. Energy, 88, 572-583.
Zhu, Y., (2012). Policy Entrepreneur, Civic Engagement and Local Policy Innovation
in China: Housing Monetarization Reform in Guizhou Province. Australian Journal of Public Administration, 71(2), 191-200.
Zhou Fengqi, Wang Qingyi. (2002). "50 Years of Energy in China", China Electric
Power Press.
Zhang, S., Zhao, X., Andrews-Speed, P., & He, Y. (2013). The development
Trajectories of Wind Power and Solar PV Power in China: A Comparison and Policy Recommendations. Renewable and Sustainable Energy Reviews, 26, 322-331.
Zhang, M., Zhou, D., & Zhou, P. (2014). A Real Option Model for renewable energy
policy evaluation with application to solar PV power generation in China. Renewable and Sustainable Energy Reviews, 40, 944-955
Zhao, X., Zeng, Y., & Zhao, D. (2015). Dispersed Solar Powers in China:
Policies and Economic Performance. Energy, 88, 572-583.
Zhang, F., Deng, H., Margolis, R., & Su, J. (2015). Analysis of Dispersed-generation
Solar Power Deployment, Installation Time and Cost, Market Barriers, and Policies in China. Energy Policy, 81, 43-55.
Zhang, S. (2016). Analysis of DSPV (dispersed Solar PV) Power Policy in China.
Energy, 98, 92-100. ISO 690
Zhang, O., Yu, S., & Liu, P. (2015). Development Mode for Renewable Energy
Power in China: Electricity Pool and Dispersed Generation Units. Renewable and Sustainable Energy Reviews, 44, 657-668. ISO 690
Zhu, Jie-ming (2004). “Local Developmental State and Order in China’s Urban
Development during Transition.” International. Journal of Urban and Regional Research, Vol. 28 No. 2: 424-447. |
| Description: | 博士
國立政治大學
亞太研究英語博士學位學程(IDAS)
104265503 |
| Source URI: | http://thesis.lib.nccu.edu.tw/record/#G0104265503 |
| Data Type: | thesis |
| DOI: | 10.6814/NCCU202200360 |
| Appears in Collections: | [亞太研究英語博/碩士學位學程(IDAS/IMAS)] 學位論文
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