[1] The governance of China. Beijing: Foreign Languages Press; 2014.
[2] Research on China’s energy problem. Shanghai: Shanghai Jiao Tong University Press; 2008.
[3] Electric power must come first, Peng Li’s power diary. Beijing: China Electric Power Press; 2005.
[4] Report on China’s energy development 2010. Beijing: Economic Science Press; 2010.
[5] Electric power and energy in China. Beijing: China Electric Power Press; 2012.
[6] Ultra-high voltage AC/DC grids. Beijing: China Electric Power Press; 2013.
[7] Smart grid technology. Beijing: China Electric Power Press; 2010.
[8] A serial publication on UHV DC technology. Beijing: China Electric Power Press; 2009.
[9] UHV questions and answers. Beijing: China Electric Power Press; 2006.
[10] Innovation of UHV AC transmission technology in China. Power System Technology; 2013;37(3): 566–574.
[11] Zhenya L. Smart grid and the Third Industrial Revolution. Science Daily; December 5, 2013.
[12] Efficient and security transmission of wind, photovoltaic and thermal power of large-scale energy resource bases through UHVDC projects. Proc. CSEE. 2014;16.
[13] Global energy Internet. IEEE Spectr. 2014;10:54–56.
[14] China electric power encyclopedia. 3rd ed. Beijing: China Electric Power Press; 2014.
[15] China statistical yearbook 2013. Beijing: China Statistics Press; 2013.
[16] China energy statistical yearbook 2013. Beijing: China Statistics Press; 2013.
[17] National energy strategy towards 2030 following the scientific development approach. Policy Planning Department of National Energy Administration; 2012.
[18] 2013 State of environment report review. Ministry of Environmental Protection of the People’s Republic of China; 2014.
[19] Research on China’s medium and long term energy development strategy. Beijing: China Development Press; 2013.
[20] The current status of air pollutant control for coal-fired power plants in China 2009. Beijing: China Electric Power Press; 2009.
[21] Compilation of statistical materials of electric power industry 2013. China Electricity Council; 2014.
[22] Global new energy report 2014. ACFIC New Energy Chamber of Commerce; 2014.
[23] Hefner III RA. The grand energy transition [Yuanchun M, Boshu L, Trans.]. Beijing: China Citic Press, Citic Publishing House; 2013.
[24] Yergin D. The quest: energy, security, and the remaking of the modern world [Yuben Z, Zhimin Y, Trans.]. Beijing: Petroleum Industry Press; 2012.
[25] Rifkin J. The Third Industrial Revolution: how lateral power is transforming energy, the economy, and the world [Tiwei Z, Yuning S, Trans.]. Beijing: China Citic Press, Citic Publishing House; 2012.
[26] Montgomery SL. The powers that be: global energy for the twenty-first century and beyond [Yang S, Wenbo J, Trans.]. Beijing: China Machine Press; 2012.
[27] Mackay DJC. Sustainable energy – without the hot air [Ju Z, Meng D, et al., Trans.]. Beijing: Science Press; 2013.
[28] Botkin DB, Perez D. Powering the future [Mu C, Trans.]. Beijing: Publishing House of Electronics Industry; 2012.
[29] Scheer H. The energy imperative: 100 percent renewable now [Qiankun W, Trans.]. Beijing: Posts & Telecom Press; 2013.
[30] Lovins A, Rocky Mountain Institute. Reinventing fire: bold business solutions for the New Energy Era [Haiyan Q, China General Certification Center, Trans.]. Changsha: Hunan Science & Technology Press; 2014.
[31] McElroy MB. Energy: perspectives, problems and prospects [Yuxuan W, Jiming H, Xi L, Trans.]. Beijing: Science Press; 2011.
[32] Energy war. Beijing: Peking University Press; 2012.
[33] The Third Industrial Revolution and modern China. Wuhan: Hubei Education Press; 2013.
[34] Dilemma and breakthrough: mankind’s energy crisis and the way out. Beijing: People’s Publishing House; 2006.
[35] Analysis methods and reserves evaluation of ocean energy resources. Beijing: China Ocean Press; 2009.
[36] Water Resources of Russia and their Use. Express Water Resour. Hydropower Inform. 2008;29(5).
[37] Fact-finding Report on Exploitation and Utilization of Water Resources in the US and Canada. China Hydropower Electrification. 2008;(4):23–28.
[38] Assessment on generation adequacy and capacity credit for large-scale wind farm. Power Syst. Technol. 2012;36(6):200–206.
[39] Wind power technology and wind farm project. Beijing: Chemical Industry Press; 2012.
[40] Mathew S. Wind energy fundamentals, resource analysis and economics [Fengfei X, Trans.]. Beijing: China Machine Press; 2011.
[41] Taiyangneng Guangfu Bingwang Fadian Jiqi Nibian Kongzhi. Beijing: China Machine Press; 2011.
[42] Taiyangneng Guangfu Fadian Xitong Yuanli Yu Yingyong Jishu. Beijing: Chemical Industry Press; 2012.
[43] The principle and technology of solar thermal generation. Beijing: China Electric Power Press; 2012.
[44] Solar thermal generation technology. Beijing: China Electric Power Press; 2013.
[45] Multi-terminal HVDC and DC-grid technology. Proc. CSEE. 2013;33(10):8–17.
[46] Review on submarine cable projects for power transmission worldwide. Southern Power Syst. Technol. 2012;2:26–30.
[47] A proposal for development of high-voltage, long-distance, high-capacity high temperature superconducting power transmission. Adv. Technol. Electric. Engineer. Energy. 2012;31(1):1–7.
[48] Worzyk T. Submarine power cables: design, installation, repair, environmental aspects [Qiliang Y, Xiaofeng X, Jiansheng S, Trans.]. Beijing: China Machine Press; 2011.
[49] HVDC system based on voltage source converter. Beijing: China Machine Press; 2013.
[50] Principle and applications of HVDC transmission system. 2nd ed. Beijing: China Machine Press; 2013.
[51] Basics of superconducting power technology. Beijing: Science Press; 2011.
[52] Weidianwang Yunxing Kongzhi Yu Baohu Jishu. Beijing: China Electric Power Press; 2010.
[53] Distributed generation and smart grids. Shanghai: Shanghai Jiao Tong University Press; 2013.
[54] Barnes FS, Levine JG, et al. Large energy storage systems handbook [Xi X, Zanxiang N, et al., Trans.]. Beijing: China Machine Press; 2013.
[55] Fengguang Hubu Yu Chuneng Xitong. Beijing: Chemical Industry Press; 2012.
[56] Xiu Y, Hongzhong L, Jingjing Z. Basics of distributed generation and energy storage technologies. Beijing; 2012. Available from: www.waterpub.com.cn.
[57] Superconducting magnetic energy storage system (SMES) and its application in electric power systems. Beijing: China Electric Power Press; 2009.
[58] Zhineng Dianwang Zhong Xudianchi Chuneng Jishu Jiqi Jiazhi Pinggu. Beijing: China Machine Press; 2012.
[59] Chemical energy storage technology and its application in electric power systems. Beijing: Science Press; 2013.
[60] The Big Data Revolution. Guilin: Guangxi Normal University Press; 2013.
[61] Big Data, the Internet of Things and Cloud Computing. Beijing: Tsinghua University Press; 2014.
[62] Mayer-Schönberger V, Cukier K. Big Data [Tao Z, et al., Trans.]. Hangzhou: Zhejiang People’s Publishing House; 2013.
[63] Keiser G. Optical fiber communications, 4th ed. [Tao P, Junhua X, Yang S, Trans.]. Beijing: Publishing House of Electronics Industry; 2012.
[64] Zhenya L. Smart grid in China: development and practice. Paper C1-203, CIGRE Session 2014. Paris, France; August 2014.
[65] BP statistical review of world energy 2014; 2014.
[66] UN world energy statistics yearbook 2013; 2014.
[67] IEA energy balances of non-OECD countries 2014; 2014.
[68] IEA energy balances of OECD countries 2014; 2014.
[69] IEA electricity information 2014; 2014.
[70] IEA world energy outlook 2014; 2014.
[71] IEA CO2 emissions from fuel combustion 2013; 2013.
[72] IEA CO2 emissions from fuel combustion highlights 2014; 2014.
[73] IEA energy prices and taxes Q2 2014; 2014.
[74] IEA energy supply security: emergency response of IEA countries 2014; 2014.
[75] IMF world economic outlook 2014; 2014.
[76] WEC world energy scenarios: composing energy futures to 2050; 2013.
[77] WEC world energy resources: 2013 survey; 2013.
[78] WEC world energy perspective smart grids: best practice fundamentals for a modern energy system; 2012.
[79] WNA world nuclear power reactors & uranium requirements; 2013.
[80] IAEA uranium 2014 resources, production and demand; 2014.
[81] GWEC global wind report 2013; 2014.
[82] IPCC climate change 2014 impacts, adaptation, and vulnerability: summary for policymakers; 2014.
[83] IPCC renewable energy and climate change; 2011.
[84] IPCC special report on renewable energy resources and climate change mitigation; 2011.
[85] IRENA estimating the renewable energy potential in Africa; 2014.
[86] IRENA southern African power pool: planning and prospects for renewable energy; 2014.
[87] REN21 renewables 2014 global status report; 2014.
[88] NREL eastern wind integration and transmission study; 2010.
[89] NREL US renewable energy technical potentials: a GIS-based analysis; 2012.
[90] EPIA global market outlook for photovoltaics 2014–2018; 2014.
[91] BTM consult world market update 2013; 2014.
[92] US energy information administration international energy outlook 2014; 2014.
[93] EU energy road map 2050; 2012.
[94] EUenergy, transport and GHG emissions trends to 2050 reference scenario 2013; 2014.
[95] EU renewable energies in Africa final report 2011; 2011.
[96] European environmental agency Europe’s onshore and offshore wind energy potential: an assessment of environmental and economic constraints; 2009.
[97] ENTSO-E statistical factsheet; 2013.
[98] IEEE power system operations committee organization and procedures; 2009.
[99] Possibilities of use and promising layouts of power plants employing renewable energy sources in Arctic regions of Russia. Power Technol Engineer. 2005;39(5):308–311.
[100] Boute A, Willems P. RUSTEC: greening Europe’s energy supply by developing Russia’s renewable energy potential energy policy; 2012.
[101] Elliott D. Emergence of European super grids: essay on strategy issues energy strategy reviews; 2013.
[102] Conner AM, Francfort JE, Rinehart BN. DOE US hydropower resource assessment final report; 1998.
[103] Progress in electrical energy storage system: a critical review. Prog. Nat. Sci. 2009;19:291–312.
[104] Energy payback time and carbon footprint of commercial photovoltaic systems. Sol. Energ. Mat. Sol. C. 2013;119:296–305.
[105] Hydropower of World’s Major Rivers; Hydroelectric Generation, January 1957.
[106] Investigation Results for Hydropower in the People’s Republic of China; National Leading Group for Nationwide Hydropower Review, 2005.
[107] Asselin, Russian Water Resource and Utilization; Hydropower Engineering Construction, June 2007.
[108] GWEC, Annual Market Update 2013.
[109] Japan Electric Power Information Center, Statistics of Overseas Electric Industries 2013.
[110] IEA, 2014 Key World Energy Statistics.