JOURNAL OF SHANDONG UNIVERSITY (ENGINEERING SCIENCE) ›› 2017, Vol. 47 ›› Issue (6): 134-142.doi: 10.6040/j.issn.1672-3961.0.2017.539

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Operating mechanism establishment of the global energy interconnection under “the Belt and Road Initiative” situation

LI Haishi1,2, XU Xiangyi1,2, ZHANG Lei3   

  1. 1. School of Management, Shandong University, Jinan 250100, Shandong, China;
    2. Global Energy Internet(Shandong)Collaborative Innovation Center, Jinan 250061, Shandong, China;
    3. Electric Power Research Institute, State Grid Shandong Electric Power Company, Jinan 250003, Shandong, China
  • Received:2017-09-12 Online:2017-12-20 Published:2017-09-12

Abstract: With the vigorous development of clean energy and the maturing of smart grid technology, UHV technology could solve the scheduling problem of ultra-long-distance transmission of electronic power. The global energy interconnection has become a major issue urgently needed to be solved at this stage of globalization. It was also an important strategic plan for achieving sustainable global economic and energy development. Global energy interconnection requires all countries in the world to cooperate in all aspects of energy and open energy access among countries with different development levels so as to bring together resources and energy-based enterprises from all over the world to form a set of mutually beneficial energy trading operation mechanisms. Together, countries may explore the business model applicable to the global energy interconnection to ensure the orderly development of the global energy Internet. “The Belt and Road Initiative” at this stage was analyzed, which is about global energy development status and the performance gained of global energy internet. The construction of new investment and financing mechanism, market mechanism, collaborative innovation mechanism and organizational guarantee mechanism in the process of global energy internet development were explored. In order to drive the coupling and interaction between “the Belt and Road Initiative” and the strategy of global energy internet establishment, the problems were put forth that would be encountered during the operation of global energy interconnection, and feasible scheme was proposed for the construction of global energy interconnection operation mechanism.

Key words: operating mechanism, clean energy, diversified investment platform, “the Belt and Road Initiative”, global energy interconnection

CLC Number: 

  • O482.4
[1] 刘振亚.全球能源互联网跨国跨洲互联研究及展望[J]. 中国电机工程学报, 2016, 36(19):5103-5110. LIU Zhenya. Research and prospect of transnational intercontinental internet in global energy internet[J]. Journal of China Electrical Engineering, 2016, 36(19):5103-5110.
[2] 范爱军, 潘垠伊.全球能源互联网发展潜力与关联效益探析:基于微观经济学的视角[J]. 福建论坛(人文社会科学版), 2016(7):10-16. FAN Aijun, PAN Yinyi. Global energy internet development potential and related benefits: from the perspective of microeconomics[J]. Fujian Forum(Humanities and Social Sciences Edition), 2016(7):10-16.
[3] 魏钧, 邓文靓, 吴向京.全球能源互联网:我国能源供给侧改革的新契机[J]. 价格理论与实践, 2016(8):89-92. WEI Jun, DENG Wenliang, WU Xiangjing. Global energy internet: the new opportunity of Chinas energy supply side reform[J]. Price Theory and Practice, 2016(8):89-92.
[4] 张恒旭, 施啸寒, 刘玉田, 等.我国西北地区可再生能源基地对全球能源互联网构建的支撑作用[J]. 山东大学学报(工学版), 2016, 46(4):96-102. ZHANG Hengxu, SHI Xiaohan, LIU Yutian, et al. Support of the renewable energy base in northwest of China on the construction of global energy interconnection[J]. Journal of Shandong University(Engineering Science), 2016, 46(4):96-102
[5] 李彬, 吴倩, 张晶, 等.全球能源互联网标准体系构建的方法论[J]. 电力信息与通信技术, 2017(3):1-6. LI Bin, WU Qian, ZHANG Jing, et al. Methodology for building a global energy internet standard system[J]. Power Information and Communication Technology, 2017(3):1-6.
[6] 王益民.全球能源互联网理念及前景展望[J]. 中国电力, 2016, 49(3):1-5. WANG Yimin. Concept and prospect of global energy interconnection[J]. Electric Power, 2016, 49(3):1-5.
[7] 刘振亚. 全球能源互联网[M]. 北京:中国电力出版社,2015.
[8] 刘强, 白玉竹, 范爱军.全球能源互联网的产业效应分析[J].山东社会科学, 2017(8):162-168. LIU Qiang, BAI Yuzhu, FAN Aijun. Industrial effect analysis of global energy internet[J]. Shandong Social Sciences, 2017(8):162-168.
[9] 李晓露, 宋燕敏, 唐春童, 等.全球能源互联网的跨境电力交易市场成熟度模型研究[J].电力信息与通信技术, 2017(3):7-13. LI Xiaolu, SONG Yanmin, TANG Chuntong, et al. Research on global energy internet cross-border power exchange maturity model[J]. Power Information and Communication Technology, 2017(3):7-13.
[10] 张安华.全球能源互联网提升能源系统潜在价值[J].中国电力企业管理, 2017(22):74-75. ZHANG Anhua. The global energy internet raises the potential value of energy systems[J]. China Power Enterprise Management, 2017(22):74-75.
[11] 宗慧隽.全球能源互联网社会效益形成机理及效益测算:基于压力—状态响应模型[J].福建论坛(人文社会科学版), 2017(8):29-35. ZONG Huijuan. The formation mechanism and benefit calculation of the global energy internet social benefit: based on the model of the pressure-state response[J]. Fujian Forum(Humanities and Social Sciences), 2017(8):29-35.
[12] 权楠, 张亚平, 司晋新, 等.全球能源互联网的信息顶层架构[J].电力信息与通信技术, 2016(3):60-65. QUAN Nan, ZHANG Yaping, SI Jinxin, et al. The information top-level architecture of the global energy internet[J]. Power Information and Communication Technology, 2016(3):60-65.
[13] 谢国辉, 李琼慧.全球能源互联网技术创新重点领域及关键技术[J].中国电力, 2016, 49(3):18-23. XIE Guohui, LI Qionghui. Key areas and technologies of global energy internet technology innovation[J]. China Electricity, 2016, 49(3):18-23.
[14] 刘振亚. 全球能源互联网与中国电力转型之路[J]. 中国经贸导刊, 2015(22):22-25. LIU Zhenya. The global energy internet and China's power transformation[J]. China Economic Trade Herald, 2015(22):22-25.
[15] 张东霞, 苗新, 刘丽平, 等.智能电网大数据技术发展研究[J].中国电机工程学报, 2015(1):2-12. ZHANG Dongxia, MIAO Xin, LIU Liping, et al. Research on the development of big data technology of smart grid[J]. Journal of China Electrical Engineering, 2015(1):2-12.
[16] 张小平, 李佳宁, 付灏.全球能源互联网对话工业4.0[J].电网技术, 2016, 40(6):1607-1611. ZHANG Xiaoping, LI Jianing, FU Hao.Global energy interconnection dialogue industry 4.0[J].Power System Technology, 2016, 40(6):1607-1611
[17] 王继业, 马士聪, 仝杰.中日韩电网关键技术发展及趋势分析[J].电网技术, 2016, 40(2):491-499. WANG Jiye, MA Shicong, TONG Jie. Key technology development and trend analysis of China, Japan and South Korea power grid[J]. Power System Technology, 2016, 40(2):491-499.
[18] 刘振亚.构建全球能源互联网推动能源清洁绿色发展[N].人民日报,2015-10-22(11). LIU Zhenya. Construct a global energy internet promote clean, green development of energy[N]. Peoples Daily, 2015-10-22(11).
[19] European Commission. Energy union package-a framework strategy for a resilient energy union with a forward-looking climate change policy[R].Brussels:European Commission, 2015.
[20] POSADA J, TORO C, BARANDIARAN I, et al.Visual computing as a key enabling technology for industrie 4.0 and industrial internet[J].IEEE Computer Graphics and Applications, 2015, 35(2):26-40.
[2] LIU Xiaoming, XU Naiyuan, YANG Bin, WEI Xin, ZHANG Lina, CAO Yongji. Bi-stage optimization method for receiving-end ultra-high voltage network planning under global energy interconnection [J]. JOURNAL OF SHANDONG UNIVERSITY (ENGINEERING SCIENCE), 2017, 47(6): 1-6.
[3] ZHANG Hengxu, HAN Linxiao, SHI Fang. Optimal allocation of global energy based on minimum deviation method [J]. JOURNAL OF SHANDONG UNIVERSITY (ENGINEERING SCIENCE), 2017, 47(6): 128-133.
[4] ZHANG Xihua, LU Shanshan, SU Jianjun. Countermeasure and technology patent development of global energy interconnection [J]. JOURNAL OF SHANDONG UNIVERSITY (ENGINEERING SCIENCE), 2017, 47(6): 143-150.
[5] ZHANG Hengxu, SHI Xiaohan, LIU Yutian, YANG Dong. Support of the renewable energy base in northwest of China on the construction of global energy interconnection [J]. JOURNAL OF SHANDONG UNIVERSITY (ENGINEERING SCIENCE), 2016, 46(4): 96-102.
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