全球能源互联网(英文)2021,Vol.4Issue(5):485-492,8.DOI:10.14171/j.2096-5117.gei.2021.05.005
采用电-水复合传输新技术实施西非-北非"民生"联网研究
Research on the implementation of West Africa-North Africa grid interconnection using new electricity-water composite transmission technology
摘要
Abstract
Combining the characteristics of the reverse distribution of solar resources and water resources in North Africa, West Africa and the Sahara, this paper proposes the West Africa-North Africa grid interconnection project to realize the optimal configuration of desert solar resources and surrounding water resources, and introduce the water resources of West Africa's Niger River and North Africa's desalinated seawater to improve the living environment and development conditions in the hinterland of the Sahara Desert; build photovoltaic bases along the route to send clean electricity to North Africa and West Africa. This paper studies the transmission channel path, electricity-water composite transmission technology and project scheme, and analyzes the economics of the project and the water supply and demand conditions of the Niger River. The research results show that it is feasible in hydrological characteristics to lead the Niger River water along the power transmission channel that crosses the Sahara Desert, and the new electricity-water composite transmission technology has obvious economic advantages.关键词
西非-北非联网/电水复合传输/全球能源互联网Key words
West Africa-North Africa interconnection/Electricity-water composite transmission/Global Energy Interconnection (GEI)引用本文复制引用
徐玲,张宇,肖晋宇,周舟,赵云,万海滨,林弋莎..采用电-水复合传输新技术实施西非-北非"民生"联网研究[J].全球能源互联网(英文),2021,4(5):485-492,8.基金项目
This work was supported by National Natural Science Foundation of China(No.72131007):Agent-based modeling and analysis on evolution of the energy technology system for alternative fuel vehicles (No.72131007)
Science and Technology Foundation of Global Energy Interconnection Group Co.,Ltd.(No.SGGEIG00JYJS2100027). (No.SGGEIG00JYJS2100027)
