DOCSLIB.ORG

Accelerating Innovation in China's Solar, Wind and Energy Storage

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Accelerating Innovation in China's Solar, Wind and Energy Storage Public Disclosure Authorized Accelerating Innovation in Public Disclosure Authorized China’s Solar, Wind and Energy Storage Sectors Public Disclosure Authorized Smita Kuriakose, Joanna Lewis, Jeremy Tamanini and Shahid Yusuf Trade and Competitiveness Global Practice Public Disclosure Authorized Contents Acknowledgements .................................................................................................................... 4 Executive Summary .................................................................................................................... 5 Role of Government and Policy Recommendations .................................................................................. 5 Increase support for early-stage innovation .......................................................................................... 6 Design the domestic venture capital market to avoid pitfalls experienced by foreign peers ............... 6 Further leverage strong record at commercializing cleantech innovations ......................................... 7 Continue to focus on dynamic cost innovation ....................................................................................... 7 Take a more comprehensive approach to measuring innovation ......................................................... 7 Strengthen the political, regulatory and business environment for innovators ................................... 8 Connect China with global innovation networks .................................................................................... 8 1. Introduction .................................................................................................................... 11 China’s Energy Challenge .......................................................................................................................... 12 The Environmental Challenge .................................................................................................................. 15 The Role of Innovation for Green Growth ............................................................................................... 15 Government Policy Framework ............................................................................................................... 18 Energy efficiency and greening starting with the 11th Five-Year Plan ................................................... 20 2. Regulatory and Policy Frameworks for Renewable Energy in China .................. 22 Policy Rationale for Promoting Renewable Energy................................................................................ 22 Deployment Policies ................................................................................................................................ 22 Industrial Policies .................................................................................................................................... 24 Where Does China Stand Globally in Regulatory Framework for Renewable Energy? ....................... 26 Best Practices in Promoting Renewable Energy Deployment and Technology Innovation ................ 28 Supporting Early-Stage Technologies ..................................................................................................... 28 Supporting Advanced Innovation ........................................................................................................... 28 Supporting Large-Scale Commercialization and Deployment ................................................................ 29 Supporting Renewable Energy in China .................................................................................................. 29 Supporting Indigenous Innovation through Technological Catch-Up ..................................................... 31 Inefficiencies in the Policy Framework .................................................................................................... 32 Innovation in China’s Renewables Sector ............................................................................................... 33 Global Innovation Index .......................................................................................................................... 34 Global Cleantech Innovation Index ......................................................................................................... 37 3. China’s Wind Power Technology Sector .................................................................... 41 Leaders in China’s Wind Power Technology Sector ............................................................................... 42 Research and Development ........................................................................................................................ 43 Venture Activity .......................................................................................................................................... 43 Case Study: Goldwind ................................................................................................................................. 44 Technology Acquisition ........................................................................................................................... 44 Technology Innovation ........................................................................................................................... 46 Case Study: Guodian United ..................................................................................................................... 47 Technology Acquisition ........................................................................................................................... 47 Technology Innovation ........................................................................................................................... 48 China’s Role in Global Wind Power Technology Innovation.................................................................. 48 Assessing Technological Sophistication .................................................................................................. 49 1 Patenting Activity ................................................................................................................................... 49 Patent Citation Likelihood....................................................................................................................... 53 Other Measures ...................................................................................................................................... 54 Assessing Learning and Cost Declines..................................................................................................... 55 Assessing Quality .................................................................................................................................... 57 Case Study: Wind Turbine Test Centers (Denmark) .............................................................................. 59 Government Policy Support ........................................................................................................................ 60 Pricing and Subsidies .............................................................................................................................. 60 Technology Transfer and Localization Mandates ................................................................................... 61 Research and Development Programs ................................................................................................... 63 Industrial and Trade Policies ................................................................................................................... 63 Course Corrections and Lessons Learned ................................................................................................... 64 Electricity versus Capacity ...................................................................................................................... 64 Curtailment Woes ................................................................................................................................... 65 Technology Transfers in China’s Wind Industry ...................................................................................... 66 Technology Networks ............................................................................................................................. 67 Case Study: Siemens (Germany) ................................................................................................................. 69 Looking Ahead ........................................................................................................................................... 69 4. China’s Solar Power Technology Sector .................................................................... 70 Solar Power Development .......................................................................................................................... 71 Research and Development .................................................................................................................... 73 Venture Activity ...................................................................................................................................... 73 Case Study: First Solar (United States) ................................................................................................. 74 Leaders in China’s Solar Power Technology Sector ................................................................................ 75 Suntech: A Case Study
Load more

Recommended publications
  • Multibrand Service – No Matter the Make High
    Turn to one-of-a-kind service for all kinds of turbines Multibrand Service – no matter the make High The wind industry is going through a critical period of change, and although in OEM: Cost-out OEM: our fast-paced industry change is nothing new, this shake-up is more Bare-bones Driven Engi- Agnostic Ser- Where there’s wind, fundamental than most – with the challenges to match. Inefficient repair loops, ISPs neering some vice Focused unexpected and unbudgeted failures well outside of the warranty period, poorly self performers Engineering monitored equipment with a limited supply chain and even turbine manufac- turers who pull out of markets altogether. Things go wrong when things don’t ISPs redefining there’s a way OEM: Service themselves Some self- turn. So providers and owners must quickly learn to adapt. Which above all else Focused and some self- performers requires one thing: innovative, cost-effective engineering. Engineering Our Multibrand Services stand out – performers With more than 20 years of multibrand OEM service experience, Siemens OEM Prod- for cost and quality Cost Competitiveness Costly Gamesa puts unparalleled assets to work on your behalf. We harness a strong Expensive ISPs uct Focused low value engineering workforce, third-party experts, vast engineering know-how and without value- Engineering: engineering proposition engineering deep market knowledge to improve your LCoE and maximize availability – focused firms no matter the market, no matter the make. focused firms Low Engineering / Innovation Focus In the multibrand service market, the combination of cost efficiency and strong, innovative engineering is rare. But one provider delivers both: Siemens Gamesa Made by our competitors, serviced like our own Your OEM is our USP Turbines and wind make for high-yield assets, but when the time comes for cost-effective service solutions, people are our most valued resource.
    [Show full text]
  • Gravity-Based Foundations in the Offshore Wind Sector
    Journal of Marine Science and Engineering Review Gravity-Based Foundations in the Offshore Wind Sector M. Dolores Esteban *, José-Santos López-Gutiérrez and Vicente Negro Research Group on Marine, Coastal and Port Environment and other Sensitive Areas, Universidad Politécnica de Madrid, E28040 Madrid, Spain; [email protected] (J.-S.L.-G.); [email protected] (V.N.) * Correspondence: [email protected] Received: 27 December 2018; Accepted: 24 January 2019; Published: 12 March 2019 Abstract: In recent years, the offshore wind industry has seen an important boost that is expected to continue in the coming years. In order for the offshore wind industry to achieve adequate development, it is essential to solve some existing uncertainties, some of which relate to foundations. These foundations are important for this type of project. As foundations represent approximately 35% of the total cost of an offshore wind project, it is essential that they receive special attention. There are different types of foundations that are used in the offshore wind industry. The most common types are steel monopiles, gravity-based structures (GBS), tripods, and jackets. However, there are some other types, such as suction caissons, tripiles, etc. For high water depths, the alternative to the previously mentioned foundations is the use of floating supports. Some offshore wind installations currently in operation have GBS-type foundations (also known as GBF: Gravity-based foundation). Although this typology has not been widely used until now, there is research that has highlighted its advantages over other types of foundation for both small and large water depth sites. There are no doubts over the importance of GBS.
    [Show full text]
  • The Current and Future Trends in Chinese Environmental and Energy Law and Policy
    Pace International Law Review Volume 18 Issue 1 Spring 2006 Article 9 April 2006 The Current and Future Trends in Chinese Environmental and Energy Law and Policy Mingde Cao Follow this and additional works at: https://digitalcommons.pace.edu/pilr Recommended Citation Mingde Cao, The Current and Future Trends in Chinese Environmental and Energy Law and Policy, 18 Pace Int'l L. Rev. 253 (2006) Available at: https://digitalcommons.pace.edu/pilr/vol18/iss1/9 This Article is brought to you for free and open access by the School of Law at DigitalCommons@Pace. It has been accepted for inclusion in Pace International Law Review by an authorized administrator of DigitalCommons@Pace. For more information, please contact [email protected]. THE CURRENT AND FUTURE TRENDS IN CHINESE ENVIRONMENTAL AND ENERGY LAW AND POLICY Mingde Caot I. Chinese Environmental and Energy Law and Policy: Transmitting from First Generation to Second Generation ................................ 255 II. The Current and Future Trends in Chinese Environmental and Energy Law and Policy ....... 258 A. Ethical Transition from Anthropocentrism to Eco-centrism ................................... 258 B. Transition from a Development Economy to Recycling and Cleaning Production Economy in Environmental and Resource Law ............. 262 C. Transition from Restricting Development and Utilization of Non-renewable Energies to Encouraging Investment and Operation of Renewable Energies ........................... 266 III. Conclusion ......................................... 268 In the period from 1979 to 2003, the yearly average growth rate of gross domestic product (GDP) in China was 9.4 percent,' while, at the same time, sixteen of the world's twenty most air- polluted cities were in China, according to the World Health Or- t Mingde Cao, PhD, is professor of law at Southwest University of Political Science and Law in Chongqing, China.
    [Show full text]
  • The 4Th Wind Energy Systems Engineering Workshop
    The 4th Wind Energy Systems Engineering Workshop September 13th-14th, 2017 Risø DTU National Laboratory for Sustainable Energy Roskilde, Denmark Sponsored by: DTU Wind Energy National Renewable Energy Laboratory Workshop Agenda Overview: The 4th workshop on systems engineering for wind energy will take place on the 13th and 14th of September, 2017. The first workshop in December 2010 was a success in catalyzing interest in this important topic among participants from industry, the national laboratories and academia. The second and third workshops in January 2013 and 2015, respectively, with more than 100 participants each, demonstrated the significant growth in interest from the research and industry community surrounding systems engineering for wind energy and integrated approaches to wind turbine and plant design. At this fourth workshop, DTU Wind Energy and NREL will be hosting the workshop in Europe to encourage participation from European wind energy systems engineering practitioners and interested parties. This year’s theme will be on exposing interactions in the system and exploring how different wind energy stakeholders addressing them in new, integrated and innovative ways. Short Agenda Wednesday, September 13th, 2017 8:30 a.m. – 9:00 a.m. Registration and Breakfast 8:30 a.m. ‒ 12:15 p.m. Morning sessions 12:15 p.m. ‒ 1:00 p.m. Lunch 1:30 p.m. ‒ 5:45 p.m. Afternoon sessions 5:45 p.m. ‒ 7:30 p.m. Evening reception and poster session (appetizers) Thursday, September 14th, 2017 8:00 a.m. – 8:30 a.m. Registration and Breakfast 8:30 a.m. ‒ 12:00 p.m.
    [Show full text]
  • Ministry of New and Renewable Energy Government of India Wind Energy Division
    Ministry of New and Renewable Energy Government of India Wind Energy Division Wind Turbine Models included in the RLMM after declaration of new procedure (i.e 01 November 2018) As on 28.09.2020 S. No Manufacturing Company with contact Company Incorporation Details License/ Model Name Rotor Dia (RD) Hub Height Tower Type Capacity (kW) Type Certificate Manufacturing system Certificate / ISO Certificate details Collaboration/ (m) (HH) (m) Joint Venture Date Document According to Any Outstanding Validity till Document According to Validity till Document Issues 1 M/s. Regen Powertech Private Limited 27-12-2006 Regen CoI VENSYS VENSYS 116 116.1 90 Tubular Steel 2000 ($$) S-Class/Turbulance No 07-11-2021 Vensys 116 TC ISO: 9001 : 2015 29-04-2023 Regen ISO Sivanandam, 1st Floor, New No. 1, Pulla Energy AG, B-Class (GL Avenue, Shenoy Nagar, Chennai, Tamil Nadu - Germany 2010/IEC 61400- 600030 1:1999) Phone:044-42966200 2 Fax :044-42966298/99 VENSYS 87 86.6 85 Tubular Steel 1500 IEC Class III B (GL No 26-01-2022 Vensys 87 TC Email: [email protected] 2010) 3 M/s Envision Wind Power Technologies India 12-07-2016 Envision CoI Envision EN 115 2.3 MW 115.9 90.32 Tubular Steel 2300 IEC Class III A No 09-11-2021 Envision EN 115 ISO: 9001: 2015 01-05-2021 Envision ISO (Pvt.) Ltd., Energy(JIANG IEC IIIA (GL/ IEC 61400- TC Level 9, Platina, C-59, G Block, BKC, Bandra SU) Co., Ltd., 22:2010) East, Mumbai-400051 China Tel: 022-67000988 / 080-61296200, Fax: 022-67000600 4 Envision EN2.5-131 131 100 / 120 Tubular Steel 2500 IEC 61400-22:2010 No 11-07-2023 Envision EN 131 Email: [email protected], 50Hz IEC S HH120 [email protected] TC 5 M/s.
    [Show full text]
  • Suzlon Signs Binding Agreement with Centerbridge Partners LP for 100% Sale of Senvion SE
    For Immediate Release 22 January 2015 Suzlon signs binding agreement with Centerbridge Partners LP for 100% sale of Senvion SE Equity value of EUR 1 Billion (approx Rs. 7200 Crs) for 100% stake sale in an all cash deal and Earn Out of EUR 50 Million (approx Rs. 360 Crs) Senvion to give licence to Suzlon for off-shore technology for the Indian market Suzlon to give license to Senvion for S111- 2.1 MW technology for USA market Sale Proceeds to be utilised towards debt reduction and business growth in the key markets like India, USA and other Emerging markets Pune, India: Suzlon Group today signed a binding agreement with Centerbridge Partners LP, USA to sell 100% stake in Senvion SE, a wholly owned subsidiary of the Suzlon Group. The deal is valued at EUR 1 billion (approx Rs. 7200 Crs) equity value in an all cash transaction and future earn out of upto an additional EUR 50 million (approx Rs 360crs). The transaction is subject to Regulatory and other customary closing conditions. Senvion to give Suzlon license for off-shore technologies for the Indian market. Suzlon to give Senvion the S111-2.1 MW license for the USA market. The 100% stake sale of Senvion SE is in line with Suzlon‘s strategy to reduce the debt and focus on the home market and high growth market like USA and emerging markets like China, Brazil, South Africa, Turkey and Mexico. The transaction is expected to be closed before the end of the current financial year. Mr Tulsi Tanti, Chairman, Suzlon Group said, “We are pleased to announce this development which is in line with our strategic initiative to strengthen our Balance Sheet.
    [Show full text]
  • Can Brazil Replicate China's Successful Solar Industry?
    Can Brazil replicate China’s successful solar industry? He Nuoshu and Fabio Couto Jr. A solar power station in Xuzhou, Jiangsu province, southeast China (Image: Zhiyong Fu / Greenpeace) China’s booming solar market offers many lessons for other emerging economies This report examines the shared experiences of China and Brazil in both nations’ efforts to develop domestic solar industries. The report, which synthesises two articles and includes policy recommendations borrowed from the Chinese experience, first appeared on Diálogo Chino and is published in partnership with Instituto Clima e Sociedade (ICS). History China’s solar power sector started to boom in recent years – not only in manufacturing, but also in domestic installations – thanks to strong government backing and a favourable policy environment. The rate of growth has stunned the world, as has the falling cost, beating expectations even of industry insiders. By the end of 2015, China had 43 gigawatts of installed solar power, and had overtaken Germany, another country that saw strong industrial policy supporting solar power, as the global leader. Last year, eight of the top-10 solar PV module manufacturers were Chinese. But the history is a longer one. The Chinese government has supported research and development (R&D) on solar PV since the 1950s, mainly for its uses in space. A PV module manufacturing industry developed during the 1990s. It remained small and of variable quality but became a crucial part of providing energy access to remote communities. The Brightness Programme, launched in 1996, was the first national policy to bring electricity access to off-grid areas of western China using renewable energy.
    [Show full text]
  • Corporate Non-Financial Reporting in Germany
    Copyright © Development International e.V., 2019 ISBN: 978-3-9820398-1-7 Authors: Chris N. Bayer, PhD Gisella Vogel Sarah Kaltenhäuser Katherine Storrs Jiahua (Java) Xu, PhD Juan Ignacio Ibañez, LL.M. Title: A New Responsibility for Sustainability: Corporate Non-Financial Reporting in Germany Date published: May 6, 2019 Funded by: iPoint-systems gmbh www.ipoint-systems.com Executive Summary Germany's economy is the fourth-largest in the world (by nominal GDP), and with 28% of the euro area market, it represents the largest economy in Europe.1 Considering the supply chains leading to its economy, Germany's cumulative environmental, social and governance performance reverberates globally. The EU Non-Financial Reporting Directive (NFRD) is the impetus behind this study – a new regulation that seeks to “increase the relevance, consistency and comparability of information disclosed by certain large undertakings and groups across the Union.”2 Large undertakings in EU member states are not only required to report on their financial basics, now they are also required by Article 1 of the Directive to account for their non- financial footprint, including adverse impacts they have on the environment and supply chains. In accordance with the Directive, the German transposition stipulates that the non-financial declaration must state which reporting framework was used to create it (or explain why no framework was applied), as well as apply non-financial key performance indicators relevant to the particular business. These requirements are our point of departure: We systematically assess the degree of non-financial transparency and performance reporting for 2017 applying an ex-post assessment framework premised on the Global Reporting Initiative (GRI), the German Sustainability Code (Deutscher Nachhaltigkeitskodex, DNK) and the United Nations Global Compact (UNGC).
    [Show full text]
  • Investigation of Innovative Rotor Concepts for the Big Adaptive Rotor
    Investigation of Innovative Rotor Concepts for the Big Adaptive Rotor Project Nick Johnson,1 Pietro Bortolotti,1 Katherine Dykes,1 Garrett Barter,1 Patrick Moriarty,1 Scott Carron,1 Fabian Wendt,1 Paul Veers,1 Josh Paquette,2 Chris Kelly,2 2 and Brandon Ennis 1 National Renewable Energy Laboratory 2 Sandia National Laboratories NREL is a national laboratory of the U.S. Department of Energy Technical Report Office of Energy Efficiency & Renewable Energy NREL/TP-5000-73605 Operated by the Alliance for Sustainable Energy, LLC September 2019 This report is available at no cost from the National Renewable Energy Laboratory (NREL) at www.nrel.gov/publications. Contract No. DE-AC36-08GO28308 Investigation of Innovative Rotor Concepts for the Big Adaptive Rotor Project Nick Johnson,1 Pietro Bortolotti,1 Katherine Dykes,1 Garrett Barter,1 Patrick Moriarty,1 Scott Carron,1 1 1 2 2 Fabian Wendt, Paul Veers, Josh Paquette, Chris Kelly, 2 and Brandon Ennis 1 National Renewable Energy Laboratory 2 Sandia National Laboratories Suggested Citation Johnson, Nick, Pietro Bortolotti, Katherine Dykes, Garrett Barter, Patrick Moriarty, Scott Carron, Fabian Wendt, Paul Veers, Josh Paquette, Chris Kelly, and Brandon Ennis. 2019. Investigation of Innovative Rotor Concepts for the Big Adaptive Rotor Project. Golden, CO: National Renewable Energy Laboratory. NREL/TP-5000-73605. https://www.nrel.gov/docs/fy19osti/73605.pdf. NREL is a national laboratory of the U.S. Department of Energy Technical Report Office of Energy Efficiency & Renewable Energy NREL/TP-5000-73605 Operated by the Alliance for Sustainable Energy, LLC September 2019 This report is available at no cost from the National Renewable Energy National Renewable Energy Laboratory Laboratory (NREL) at www.nrel.gov/publications.
    [Show full text]
  • Design and Access Statement April 2015 FULBECK AIRFIELD WIND FARM DESIGN and ACCESS STATEMENT
    Energiekontor UK Ltd Design and Access Statement April 2015 FULBECK AIRFIELD WIND FARM DESIGN AND ACCESS STATEMENT Contents Section Page 1. Introduction 2 2. Site Selection 3 3. Design Influences 7 4. Design Evolution, Amount, Layout and Scale 9 5. Development Description, Appearance and Design 14 6. Access 16 Figures Page 2.1 Site Location 3 2.2 Landscape character areas 4 2.3 1945 RAF Fulbeck site plan 5 2.4 Site selection criteria 6 4.1 First Iteration 10 4.2 Second Iteration 11 4.3 Third Iteration 12 4.4 Fourth Iteration 13 5.1 First Iteration looking SW from the southern edge of Stragglethorpe 14 5.2 Fourth Iteration looking SW from the southern edge of 14 Stragglethorpe 5.3 First Iteration looking east from Sutton Road south of Rectory Lane 15 5.4 Fourth Iteration looking east from Sutton Road south of Rectory Lane 15 6.1 Details of temporary access for turbine deliveries 16 EnergieKontor UK Ltd 1 May 2015 FULBECK AIRFIELD WIND FARM DESIGN AND ACCESS STATEMENT 1 Introduction The Application 1.8 The Fulbeck Airfield Wind Farm planning application is Context 1.6 The Environmental Impact Assessment (EIA) process also submitted in full and in addition to this Design and Access exploits opportunities for positive design, rather than merely Statement is accompanied by the following documents 1.1 This Design and Access Statement has been prepared by seeking to avoid adverse environmental effects. The Design which should be read together: Energiekontor UK Ltd (“EK”) to accompany a planning and Access Statement is seen as having an important role application for the construction, 25 year operation and in contributing to the design process through the clear Environmental Statement Vol 1; subsequent decommissioning of a wind farm consisting of documentation of design evolution.
    [Show full text]
  • ENERCON Wind Energy Converters Technology & Service
    ENERCON wind energy converters Technology & Service PAGE 2 ENERCON U¾QOHUH*HQHO%DNóġTechnology & Service Yeniliklerle gelen avantaj PAGE 3 1 ENERCON turbine technology 6 Rotor blades 8 Direct drive 9 Annular generator technology 10 Tower construction 12 Precast concrete towers 13 Steel towers 14 Foundation construction 15 2 ENERCON WEC control system 16 Sensor system 18 ENERCON ice detection system 18 Rotor blade de-icing system 19 ENERCON storm control 19 3 ENERCON grid integration and wind farm management 20 Optimum grid integration 22 P/Q diagram/voltage stability 24 Power-frequency control 25 Inertia Emulation 26 Fault ride-through - option 27 Generation management system – power regulation for maximum yield 28 Bottleneck management – maximum output during bottlenecks 28 ENERCON SCADA RTU 29 ENERCON FCU 29 4 ENERCON remote monitoring 30 ENERCON SCADA system 32 ENERCON Service Info Portal 35 ENERCON PartnerKonzept 36 5 6 ENERCON product overview 40 PAGE 4 Technology & Service PAGE 5 Introduction ENERCON has been among the top producers is performed with 3D CAD systems which assist of wind energy converters for nearly 30 years the developers in verifying overstress and criti- now. Two of the key contributing factors to the FDODUHDVE\PHDQVRIWKHʖQLWHHOHPHQWPHWKRG company´s success are innovation and quality. Production processes are not launched until com- Both highly developed vertical integration and a prehensive quality tests have been completed – a comprehensive quality management system play strategy which has been successfully adopted by D VLJQLʖFDQW UROH LQ VHFXULQJ (1(5&21vV KLJK (1(5&21vV H[FOXVLYH SURGXFWLRQ SODQWV VLQFH quality standards. 2009. The company is therefore distinguished by outstanding quality and a high degree of vertical Through constant product enhancement and integration.
    [Show full text]
  • 1 2014 China Wind Power Review and Outlook
    2014 China Wind Power Review and Outlook 1 2014 China Wind Power Review and Outlook Written by Chinese Renewable Energy Industries Association (CREIA) Chinese Wind Energy Association (CWEA) Global Wind Energy Council (GWEC) Authors Li Junfeng/Cai Fengbo/Qiao Liming/Wang Jixue/Gao Hu Tang Wenqian/Peng Peng/Geng Dan/Li Xiuqin/Li Qionghui Contents >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> I. China Wind Power Development Overview..........................1 I. China Wind Power Development Overview..................................2 1.1 General Development...............................................................2 1.2 The Development Potential of China Wind Power......................6 1.3 The Wind Power Equipment Manufacturing Industry: General Information...................................................................6 1.4 Development by Provinces, Autonomous Regions and Municipalities...........................................................................10 1.5 Construction of Large-scale Wind Bases.................................13 1.6 Wind Farm Developers............................................................13 1.7 Offshore Wind Power...............................................................15 1.8 Exports and Overseas Investment...........................................18 2. Key Issues for the Wind Power Industry....................................22 2.1 Adjustment of the Wind FIT.....................................................24 2.2 FIT Premium Reimbursement Delay and Its Impacts on the Supply
    [Show full text]