產品生命週期與中國政策對太陽能電池產業的影響

Wei-Lun Lin; 林偉倫

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/6482

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	鄭秀玲
dc.contributor.author	Wei-Lun Lin	en
dc.contributor.author	林偉倫	zh_TW
dc.date.accessioned	2021-05-17T09:14:07Z	-
dc.date.available	2017-08-17
dc.date.available	2021-05-17T09:14:07Z	-
dc.date.copyright	2012-08-17
dc.date.issued	2012
dc.date.submitted	2012-08-17
dc.identifier.citation	Amsden, A. and Chu, W. W. (2003) Beyond Late Development: Taiwan’s Upgrading Policies (Cambridge, MA: MIT Press). Cherni, J.A.　and Kentish (2007),‘Renewable energy policy and electricity market reforms in China Energy Policy,’ 35 (2007), 3616-3629. China Policy in Focus.　Retrieved May 20, 2012 from https://sites.google.com/site/chinapolicyinfocus. Christopher Harmon (2000) ‘Experience Curves of Photovoltaic Technology,’ Report of International Institute for Applied Systems Analysis. EnergyTrend.　Retrieved January 10, 2012 from http://www.energytrend.com.tw/ ENF.　Retrieved January 20, 2012 from http://www.enf.cn/. Earth Policy Institute (EPI) http://www.earth-policy.org/ George Washington University Solar Institute (2011), China’s Solar Policy: Subsidies, Manufacturing Overcapacity & Opportunities German energy blog.　Retrieved June 1, 2012 from http://www.germanenergyblog.de. Gerschenkron, A.　(1962) Economic Backwardness in Historical Perspective: A Book of Essays.　Belknap Press of Harvard University Press: Cambridge, MA. Girma, S., Gong, Y., Gorg, H., and Yu, Z.　(2009), ‘Can Production Subsidies Explain China’s export performance? Evidence from firm-level data,’ Scandinavian Journal of Economics, 111 (4), 863-891. Green Energy Industry Information Net--- Industrial Technology Research Institute (ITRT).　Retrieved May 1, 2012 from http://www.taiwangreenenergy.org.tw. Hu, M. C. and Mathews, J. A. (2005), ‘National innovative capacity in East Asia,’ Research Policy, 34(9), pp. 1322–1349. IEA Photovoltaic Power Systems Programme.　Retrieved May 20, 2012 from http://www.iea-pvps.org Jang, Show-Ling, Li-Ju Chen, Jennifer H. Chen and Yu-Chieh Chiu, forthcoming (2011), ‘Innovation and production in the global solar photovoltaic industry,’ Scientometrics. JRC European Commission (2011) PV status report 2011 - Research, solar cell production and market implementation of photovoltaics.　JRC scientific and technical reports.　EUR 24807. Kamen,I.　(1982), Market structure and innovation.　Cambridge University Press. Mathews, J.A., Hu, M-C.　and Wu, C-Y.　(2010), ‘Fast-Follower industrial dynamics: The case of Taiwan’s emergent solar photovoltaic industry,’ Industry and Innovation, 18(2), 177-202. Mo-lin Huo, Dan-wei Zhang, (2012), ‘Lessons from photovoltaic policies in China for future development,’ Energy Policy. National Renewable Energy Laboratory.　Retrieved January 18, 2012 from http://www.nrel.gov/ P.　Zhang, Y.　Yang, J.　Shi, Y.　Zheng, L.　Wang, X.　Li.　(2009), ‘Opportunities and challenges for renewable energy policy in China,’ Renewable and Sustainable Energy Reviews, 13, 439–449. Perez, C.　and Soete, L.　(1988), ‘Catching-up in technology: entry barriers and windows of opportunity,’ Technical Change and Economic Theory, 458–479. PVinsights.　Retrieved February 11, 2012 from http://pvinsights.com/index.php Richard J.　Campbell (2010).　China and the United States—A Comparison of Green Energy Programs and Policies.　Congressional Research Service. Tan, H. and Mathews, J. A. (2010), ‘Identification and analysis of industry cycles, Journal of Business Research,’ 63(5), 454–462. Schnaars, S.　P.　(1994).　Managing Imitation Strategies: How Later Entrants Seize Markets from Pioneers.　Free Press, New York.　 Schumpeter, J.　A.　(1961), Theory of Economic Development.　New York: Oxford Press.　 Schumpeter, J.　A.　(1964), Business Cycles.　New York: McGraw-Hill. Schumpeter, J.　A.　(1975), Capitalism, Socialism and Democracy.　New York: Harper & Row, Harper Colophon Ed. State Administration of Taxation of The People’s Republic of China.　Retrieved February 11, 2012 from http://www.chinatax.gov.cn/n6669073/index.html Teece J.　David (1986), ‘Profiting from Technological Innovation: Implications for Integration, Collaboration, Licensing, and Public Policy,’ Research Policy, 15, 285-305. Teece J.　(2006), ‘Reflections on profiting from innovation,’ Research Policy, 35(8), 1131–1146. The State Council.　The catalogue of industries, products and technologies encouraged by the central government.　Beijing, PR China: The State Council; 2000. The State Council.　Interim provisions for promoting the adjustment of industrial structures.　Beijing, PR China: The State Council; 2005. U.S.　Department of Commerce, Census Bureau.　Retrieved February 20, 2012 from http://www.census.gov/ Utterback, J.　M.　and Abernathy, W.　J.　(1975), ‘A dynamic model of process and product innovation,’ Omega, 3, 639–56. Vernon, R.　(1966), ‘International trade and international investment in the product cycle,’ Quarterly Journal Economics, 80, 190-207. Wu, CY, Mathews, J.A. (2012), ‘Knowledge flows in the solar photovoltaic industry: Insights from patenting by Taiwan, S. Korea, and China,’ Research Policy, 41(3), 524-540. de laTour, A., M. Glachant, Meniere, Y., (2010),’Innovation and International Technology Transfer: The Case of the Chinese Photovoltaic Industry,’ CERNA Working Paper Series.Paris,Cerna,CentreD’e’conomieIndustrielle,MINESParisTech.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/6482	-
dc.description.abstract	本文探討太陽能電池產業中，先進國家(美國、日本、德國)與後進國家(中國大陸、台灣、韓國)間的生產與專利表現。其中生產量樣本期間為2001年至2011年，專利樣本期間為1970年至2010年。本文引入產品生命週期(product life cycle)與優勢設計(dominant design)以介紹光電科技中，進入產業的時機。並採用Teece(1986)的研發理論來解釋太陽光電產業中，後進國家產能追趕的行為。在實證分析上，在2008年後中國太陽能光電廠商產能大幅躍進，此可歸因於中國政府供給面補貼政策的介入。最後我們給了太陽能光電後進國家兩個政策上的建議，一、廠商可強化第二代太陽能光電技術的研發投入。二、政府應強化第二代太陽能光電的需求面政策。	zh_TW
dc.description.abstract	The thesis analyzes the production and patenting performance among six countries, three forerunners (US, Japan and Germany) and three followers (China, Taiwan and S. Korea) in Solar Photovoltaic Cell industry.　We use production data from 2001 to 2011 and patent number data from 1970 to 2010 in the six countries and worldwide.　 In this paper, we introduce product life cycle and dominant design to illustrate the importance of timing when the PV technology was introduced into the renewable energy market.　In addition, we adopt Teece’s theory on innovation (1986) to explain followers’ catching up behavior in solar PV production.　 Besides, we find out the excellence on Chinese PV production after 2008, which is out of Teece’s projection.　In our observation, the solar PV market is heavily impacted by Chinese government policies through various supply-side subsidies.　The policies also explain the surge of Chinese PV production well.　Finally, we give two comments of emphasis on R&D and provision of demand-side policies in 2nd generation of PV industry for follower’s firms and governments respectively.	en
dc.description.provenance	Made available in DSpace on 2021-05-17T09:14:07Z (GMT). No. of bitstreams: 1 ntu-101-R99323050-1.pdf: 448845 bytes, checksum: f3ac2394f59824fbac3f6fc4557d80c2 (MD5) Previous issue date: 2012	en
dc.description.tableofcontents	中文摘要 i Abstract ii Context iii Table iv Figure v 1 Introduction 1 2 Literature Review 4 2.1 Product life cycle 4 2.2 Teece’s Theory on Innovation 5 3 Empirical Result 8 3.1 The World Market 8 3.2 Forerunner vs Follower 10 3.3 China’s Policy on PV industry 12 4 Conclusion 15 5 Reference 17 6 Appendix 21 Table Table 1 Evolution of solar PV industry 21 Table 2 Value China in Solar PV industry 21 Table 3 Keywords of Midstream: Solar Cells and Modules 22 Table 4 China's supply-side policies associated with Solar PV industry 22 Figure Figure 1: Product life cycle 24 Figure 2: Innovation over the product/process life cycle 24 Figure 3: Global Patenting Performance on 1st generation of Solar PV technology 25 Figure 4: Feed-in-tariff in Germany during 2004-2012 25 Figure 5: Global Production of 1st generation of Solar PV technology 26 Figure 6: The average selling price of PV modules 26 Figure 7: Solar Cells & Modules Prices of 1st generation of Solar PV technology 27 Figure 8: Global Production & Patent number of 1st generations of Solar PV technology 27 Figure 9: Solar PV Production & Patent number: Forerunners vs Followers 28 Figure 10: Solar PV Production Performance in three Follower Countries 28 Figure 11: Solar PV Production Performance in three Forerunner Countries 29 Figure 12 China Production & Patent number of 1st generation of Solar PV technology 29 Figure 13 Taiwan Production & Patent number of 1st generation of Solar PV technology 30 Figure 14 Korea Production & Patent number of 1st generation of Solar PV technology 30 Figure 15: Solar PV Cumulative Production vs Installation 31
dc.language.iso	en
dc.subject	需求面補貼	zh_TW
dc.subject	優勢設計	zh_TW
dc.subject	生命週期	zh_TW
dc.subject	太陽能光電產業	zh_TW
dc.subject	供給面補貼	zh_TW
dc.subject	product life cycle	en
dc.subject	supply-side subsidy	en
dc.subject	demand-side subsidy	en
dc.subject	dominant design	en
dc.subject	solar photovoltaic industry	en
dc.title	產品生命週期與中國政策對太陽能電池產業的影響	zh_TW
dc.title	The impact of Product Life Cycle and China’s Policy on Solar Photovoltaics Cell Industry	en
dc.type	Thesis
dc.date.schoolyear	100-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	李顯峰,駱世民
dc.subject.keyword	太陽能光電產業,生命週期,優勢設計,供給面補貼,需求面補貼,	zh_TW
dc.subject.keyword	solar photovoltaic industry,product life cycle,dominant design,demand-side subsidy,supply-side subsidy,	en
dc.relation.page	31
dc.rights.note	同意授權(全球公開)
dc.date.accepted	2012-08-17
dc.contributor.author-college	社會科學院	zh_TW
dc.contributor.author-dept	經濟學研究所	zh_TW
顯示於系所單位：	經濟學系

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