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新書推薦： 《 （守望者·人间世）自我：与齐格蒙特·鲍曼对谈 》 售價：NT$ 374.0 《 白蛇：浮生艺术画集 》 售價：NT$ 874.0 《 没有一种人生是完美的：百岁老人季羡林的人生智慧（读完季羡林，我再也不内耗了） 》 售價：NT$ 257.0 《 日耳曼通识译丛：复原力：心理抗逆力 》 售價：NT$ 155.0 《 海外中国研究·未竟之业：近代中国的言行表率 》 售價：NT$ 614.0 《 算法经济 ： 商业逻辑与人类生活的智能演进（生动呈现AI与算法的创新应用与商业价值） 》 售價：NT$ 359.0 《 偏爱月亮 》 售價：NT$ 207.0 《 津轻：日本无赖派文学代表太宰治自传性随笔集 》 售價：NT$ 302.0

編輯推薦： 报告给出了全球主要清洁能源发电技术的技术概述，采用技术成熟度评估方法，分析了主要技术路线的成熟度水平，提出技术发展目标。通过对技术性成本和非技术性成本解耦，采用基于技术成熟度的多元线性回归法预测技术性成本，采用基于深度自学习神经元网络算法的关联度预测非技术类投资，建立了PSO-BPNN二元综合模型，研判清洁能源发电技术的经济性发展趋势。对于读者而言兼顾科普性、通识性以及专业性，使读者对清洁能源发电技术的现状、发展趋势及经济性有全面了解，满足不同读者的信息获取需求。 內容簡介： 本报告是《清洁能源发电技术发展与展望》的英文版。 本报告一方面对主要清洁能源发电技术（水电、风电、光伏、光热、地热和海洋能）的发展历史、关键技术和技术需求进行了综述，另一方面对各类清洁能源发电技术的技术发展趋势和经济性进行了研判。 报告总共6章，以全面性为宗旨，按章节分别介绍了6种主要清洁能源发电技术的基本原理，结合走访与调研，梳理了清洁能源发电技术的发展现状，紧密结合能源清洁转型需求，分析了面临的主要技术难点。整合技术性和经济性研究，基于技术成熟度评估，提出了各类发电技术未来的发展目标和研发攻关方向；分析影响经济性的主要技术因素，采用多元线性回归与深度自学习神经元网络相结合的分析方法，根据技术发展目标研判经济性变化趋势。 關於作者： 全球能源互联网发展合作组织（简称合作组织），是由致力于推动世界能源可持续发展的相关企业、组织、机构和个人等自愿组成的国际组织。注册地设在北京。合作组织的宗旨是推动构建全球能源互联网，以清洁和绿色方式满足全球电力需求，推动实现联合国“人人享有可持续能源”和应对气候变化目标，服务人类社会可持续发展。合作组织将积极推广全球能源互联网理念，组织制定全球能源互联网发展规划，建立技术标准体系，开展联合技术创新、重大问题研究和国际交流合作，推动工程项目实施，提供咨询服务，引领全球能源互联网发展。 目錄： PREFACE SUMMARY Hydropower Generation Technology 001 1.1Current Situation 002 1.1.1Overview 002 1.1.2Key Technologies 008 1.1.3Project Cases 009 1.2Demand and Trend 012 1.3Technical Difficulties 015 1.3.1Large-size Francis Turbine Generator Set 015 1.3.2Large-size Pelton Turbine Generation Unit 016 1.3.3VFSR pumped storage generator unit 017 1.4Economic Analysis 018 1.4.1Cost Structure 018 1.4.2LCOE 021 1.5Development Prospect 022 1.5.1Technical Research 022 1.5.2Economic Research 026 Wind Power Generation Technology 029 2.1Current Situation 030 2.1.1Overview 030 2.1.2Key Technologies 039 2.1.3Project Cases 041 2.2Demand and Trend 043 2.3Technical Difficulties 047 2.3.1Blade upsizing technology 047 2.3.2Offshore Wind Turbine Generator Foundation Technology 048 2.3.3Low temperature resistance technology 049 2.3.4Grid Friendly Technology 050 2.4Economic Analysis 053 2.4.1Cost Structure 053 2.4.2LCOE 055 2.5Development Prospect 057 2.5.1Technical Research 057 2.5.2Economic Research 063 Photovoltaic Power Generation Technology 071 3.1Current Situation 072 3.1.1Overview 072 3.1.2Key Technologies 084 3.1.3Project Cases 086 3.2Demand and Trend 087 3.3Technical Difficulties 090 3.3.1Improvement of conversion efficiency of photovoltaic cells 090 3.3.2Improvement of Adaptability to Extreme Environments 091 3.4Economic Analysis 093 3.4.1Cost Structure 093 3.4.2LCOE 095 3.5Development Prospect 096 3.5.1Technical Research 096 3.5.2Economic Research 101 Concentrating Solar Power Generation Technology 109 4.1Current Situation 110 4.1.1Overview 110 4.1.2Key Technologies 117 4.1.3Project Cases 119 4.2Demand and Trend 121 4.3Technical Difficulties 123 4.3.1Improvement of optical concentration ratio 123 4.3.2Selection of heat transfer and storage medium 124 4.4Economic Analysis 126 4.4.1Cost Structure 126 4.4.2LCOE 128 4.5Development Prospect 129 4.5.1Technical Research 129 4.5.2Economic Research 133 Geothermal Power Generation Technology 135 5.1Current Situation 136 5.1.1Overview 136 5.1.2Key Technologies 142 5.1.3Project Cases 144 5.2Demand and trend 146 5.3Economic analysis 148 5.4Development Prospect 149 5.4.1Technical Research 149 5.4.2Economic Research 156 Ocean Energy Power Generation Technology 157 6.1Overview 158 6.2Tidal range energy 159 6.2.1Overview 159 6.2.2Key Technologies 165 6.2.3Development Prospect 165 6.3Wave Energy 166 6.3.1Overview 166 6.3.2Key Technologies 173 6.3.3Development Prospect 174 6.4Ocean current energy 175 6.4.1Overview 175 6.4.2Key Technologies 179 6.4.3Development Prospect 181 6.5Ocean thermal energy 182 6.5.1Overview 182 6.5.2Key Technologies 186 6.5.3Development Prospect 187 6.6Ocean salinity energy 188 6.6.1Overview 188 6.6.2Key Technologies 193 6.6.3Development Prospect 193 Epilogue Appendix 1Technology Readiness Assessment Method 196 Appendix 2Estimation Method of Clean Energy Power Generation Investment 200 Appendix 3 Calculation Method of Clean Energy Power Generation LCOE 216 Appendix 4Glossary of Technical Terms 221 內容試閱： With the continuous reduction in the availability of fossil energy along with the increasingly severe climate change situation and the increasing accumulation of environmental pollution, higher requirements have been put forward for energy reliability, environmental protection and sustainable development. Clean development is the core of sustainable development, and the key to clean development is clean energy power generation technology. After years of development, clean energy power generation technology has achieved considerable progress. Hydropower generation, wind power generation, and photovoltaic PV power generation technologies are now widely applied, and concentrating solar power CSP generation, geothermal power generation, and ocean power generation also present strong development potential. Such advancements and the reduction in cost of clean energy power generation is the most important driving force for the transition to clean energy and the construction of a Global Energy Interconnection.This report contains 6 chapters in total to cover the 6 main clean energy power generation technologies currently available. Each chapter introduces the basic principles of one technology; summarizes its development status based on the investigation results; analyzes the main difficulties that is faced by each technology in conjunction with the demands for clean energy transition; proposes its development goals and research directions in the future through technical and economic research based on the assessment of technology readiness; analyzes the main technical factors affecting the economic efficiency, and determines the trend of changes in the economic efficiency based on the development goal by applying the analysis method which combines the multiple linear regression method with the deep self- learning neural network.Global Energy Interconnection is an optimum solution with the aim of realizing the optimal allocation of clean energy and alleviating complex issues such as the global energy dilemma and climate environment. Clean energy power generation technology is the foundation forthe development of the Global Energy Interconnection and has broad development space and application prospects. This report, as one of the key technology achievements of the Global Energy Interconnection, is intended to enable readers to know thecurrent statusand key development trends of main clean energy power generation technologies, and provide an important reference for people inside and outside the industry, especially policy makers, to fully understand the clean energy power generation technologies. Additionally, itis of great significance to further consolidate the technical foundation of the Global Energy Interconnection, promote the large-scale development, global deployment and efficient utilization of clean energy, and realize the sustainable development of economies, societies and the environment around the world.

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