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光伏補貼政策設(shè)計與評估--以美國加州為例
本書以作者的博士論文為基礎(chǔ),聚焦于技術(shù)擴散基本理論和新型技術(shù)政府補貼政策的設(shè)計和評估,以美國光伏太陽能行業(yè)發(fā)展*好的加州為例,介紹了加州政府的光伏補貼政策、設(shè)計基本原則和過程以及政策的*終實施效果,并從補貼政策優(yōu)化設(shè)計和補貼轉(zhuǎn)嫁效應(yīng)兩個視角透視加州的光伏補貼政策。本研究發(fā)現(xiàn)美國加州的光伏補貼政策通過引入靈活性機制設(shè)計,很好地處理了光伏技術(shù)快速進步所帶來的成本和價格不確定性;另外,在補貼轉(zhuǎn)嫁效應(yīng)方面,研究發(fā)現(xiàn)政府的補貼幾乎全額被消費者獲得,因此政策取得了良好的效果。本研究對于優(yōu)化我國的光伏補貼政策、補貼類似新型技術(shù)(如風(fēng)能、電動車、電池技術(shù))等相關(guān)問題有重要的啟示和借鑒意義。
Preface Human-induced climate change, with its potentially catastrophic impacts on weather patterns, water resources, ecosystems, and agricultural production, is the toughest global problem of modern times. One of the 2018 Nobel Prize winner in economic scienceWilliam Nordhaus is awarded for his economic analysis of climate change. Impeding catastrophic climate change necessitates the widespread deployment of renewable energy technologies for reducing the emissions of heat-trapping gases, especially carbon dioxide(CO2). However, the deployment of renewable energy technologies is plagued by various market failures, such as environmental externalities from fossil fuels, technology learning-by-doing, innovation spillover effects, and peer effects. In efforts to address these market failures, governments at all levelscity, state, regional, and nationalhave instituted various subsidies for promoting the adoption of renewable energy technologies. Since public resources are limited and have competing uses, it is important to ask: how cost-effective are renewable energy subsidies? And are the subsidies even reaching the intended recipientsthe adopters of renewable energy technologies? In this book, I choose to answer these two research questions with a focus on the biggest solar subsidy programs in California. On cost-effectiveness, all programs to incentivize the adoption of renewable energy technologies run into the same key question: what is the optimal rebate schedule in the face of volatile product prices and the need for policy certainty? Answering this question requires careful attentions to both supply-side(learning-by-doing) and demand-side(peer effects) market dynamics. Then I use dynamic programming to analyze the effectiveness of the largest state-level solar PV subsidy program in the U.S.the California Solar Initiative(CSI)in maximizing the cumulative PV installation in California under a budget constraint. I find that previous studies overestimated learning-by-doing in the solar industry. Consistent with other studies, I also find that peer effects are a significant demand driver in the California solar market. The main implication of this empirical finding in the dynamic optimization context is that it forces the optimal solution towards higher subsidies in earlier years of the program, and, hence, leads to a lower program duration(for the same budget). In particular, I find that the optimal rebate schedule would start not at $2.5/W as it actually did in CSI, but instead at $4.2/W; the effective policy period would be only three years instead of the realized period of six years. This optimal(i.e., most cost effective) solution results in total PV adoption of 32.2MW(8.1%) higher than that installed under CSI, while using the same budget. Furthermore, I find that the optimal rebate schedule starts to look like the implemented CSI in a policy certainty scenario where the variation of periodic subsidy-level changes is constrained, and thus creating policy certainty. Finally, introduction of stochastic learning-by-doing as a way to better capture the dynamic nature of learning in markets for new products does not yield significantly different results compared to the deterministic case. Another key question related to the redistribution effect of the CSI program is: to what degree have the direct PV incentives in California been passed through from installers to PV customers? I address this question by carefully examining the residential PV market in California with multiple quantitative methods. Specifically, I apply a structural-modeling approach, a reduced-form regression analysis, and regression discontinuity designs to estimate the incentive pass-through rate for the CSI. The results consistently show a high average pass-through rate of direct incentives of nearly 100%, though with regional differences among California counties and utilities.While these results could have multiple explanations, they suggest a relatively competitive market and a smoothly operating subsidy program. Combining evidence from the optimal subsidy policy design and the incentive pass-through analysis, this research lends credibility to the cost-effectiveness of CSI given CSIs design goal of providing policy certainty and also finds a near-perfect incidence in CSI. Long-term credible commitment as reflected through CSIs capacity-triggered step changes in rebates along with policy and data transparency are important factors for CSIs smooth and cost-effective functioning. Though CSI has now wound down because final solar capacity targets have been reached, the performance of CSI is relevant not only as an ex-post analysis in California, but potentially has broader policy implications for other solar incentive programs in other states and countries such as China. This book is a reprint of my Ph.D dissertation at the University of Texas at Austin back in 2014. Although four years have passed since then, much of its content is still relevant for readers in China. Firstly, it shows how a serious Ph.D dissertation in the United States looks like, from which one might guess how many efforts are involved behind. Secondly, by comparing it to more recent literature(mostly working papers), the observations and conclusions made in my dissertation still stand correct. For example, more and more papers start to show that the incentive pass-through rate for solar photovoltaic(PV) subsidy programs is high or complete, though at first sight this conclusion may seem odd to some people. Thirdly, since PV subsidies have played a key role in promoting China to be the world-largest PV market, more research should be conducted on Chinas PV subsidies in the terms of policy evaluation and potential adjustment. For instance, how to avoid the sudden change of 530-policy in China? In all three aspects, this book can be taken as a good starting point. While preparing this manuscript, I would like to acknowledge those who have helped me along the way. Firstly, I am grateful to have Dr. Varun Rai join in the LBJ School at the University of Texas at Austin, then become my advisor and inspire many of my ideas. His generous help and unlimited support have encouraged me to try different approaches to answering important questions. We have shared very long working hours on meeting deadlines together, and discussed research and teaching philosophy, among other things, during our shared road trips to Houston, Texas. I also want to thank Dr. Kenneth Flamm to enroll me and be my academic advisor at the beginning. I am awe-inspired by his extraordinary knowledge of the semiconductor industry, and I in particular acknowledge his financial support for my research during the first few years after I came to the U.S. My sincere thanks go to Dean Chandler Stolp, a great mentor and teacher, who helped me tremendously during my transition to doctoral candidacy. I would also love to thank Dr. Jay Zarnikau for his valuable and timely feedback on several of my papers, Dr. Ross Baldick for his passion about everything and generosity with his time to discuss things with me, and Dr. Eric Bickel for pushing me to make my dissertation more and more rigorous. I have bothered many people for help with editing, and I would like to thank all of them here, including Carlos Olmedo, Jarett Zuboy, Vivek Nath, Ariane Beck, Trevor Udwin, Erik Funkhouser, Matthew Stringer, Cale Reeves, and Tobin McKearin. I also want to thank Scott Robinson for his GIS help along the way. Dr. Ryan Wiser from the Lawrence Berkeley National Laboratory(LBNL) has helped me a lot for not only funding me to conduct part of my dissertation research, but also providing me his many insights on the solar PV industry. Naim Darghouth and Galen Barbose, both from LBNL, have helped me a lot to get to know their data. I thank China Scholarship Council for their financial support during my Ph.D life, and thank my Chinese colleges here at UT Austin, Liangfei Qiu, Hao Hang, Fang Tang, Zhu Chen, Yumin Li, and Zhufeng Gao for making my Ph.D life more colorful. Lastly, I would like to thank my then-girlfriend and now wife, Fang Cong, for her love and support through my Ph.D life; without her, I probably will finish my dissertation a couple of months earlier. Also, I want to thank my family for fully supporting me going abroad and forgiving me for not being around. The publication of this work has been supported by the MOF and MOE specific fund of Building World-Class Universities(Disciplines) and Fostering characteristic Development received by Renmin University of China in 2018.The author would also like to acknowledge the help from editor Jingjing Chen and editor Chenggong Jing at the Intellectual Property Publishing House Co., Ltd. Their editing has made this book more readable.
董長貴,現(xiàn)為中國人民大學(xué)公共管理學(xué)院助理教授,人大國家發(fā)展與戰(zhàn)略研究院研究員。曾獲美國得克薩斯大學(xué)奧斯汀分校公共政策博士,并有美國勞倫斯伯克利國家實驗室和國家可再生能源實驗室的工作經(jīng)歷。主要研究領(lǐng)域為能源環(huán)境經(jīng)濟與政策、技術(shù)進步與擴散、政策評估等。
Contents PrefaceⅠ List of TablesⅨ List of FiguresⅪ Chapter 1 Introduction1 Chapter 2 Policy Introduction: the California Solar Initiative7 1)The Joint Staff Report8 2)Megawatt-Triggering Mechanism10 3)Incentive Application Process13 Chapter 3 Optimal Subsidy Design with Stochastic Learning: A Dynamic Programming Evaluation of the California Solar Initiative17 1)Introduction17 2)The California Solar Initiative: Policy in Retrospect21 (1)CSI Target and Budget Setting21 (2)Megawatt-Triggering Mechanism22 (3)CSI Performance23 3)Modeling and Parameterization25 (1)Model Setup25 (2)Parameterization28 4)Results39 (1)Analytic Results39 (2)Deterministic Case41 (3)Stochastic Case51 5)Conclusions57 Chapter 4 Incentive Pass-through for Residential Solar Systems in California60 1)Introduction60 2)Literature Review63 3)Methods and Data67 (1)Structural Modeling68 (2)Reduced-form Regression73 (3)Data74 4)Results81 (1)Structural Modeling81 (2)Reduced-form Approach87 5)Conclusions91 Chapter 5 Analyzing Incentive Pass-through for the California Solar Initiative: A Regression Discontinuity Design95 1)Introduction95 2)CSI Policy Design and Suitability for RD Analysis98 3)Methods and Data100 (1)Methods100 (2)Data104 4)Results112 (1)Time Discontinuity112 (2)Geographic Discontinuity122 5)Conclusions127 Chapter 6 Conclusion130 Appendix134 Bibliography137
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