摘要
偏远海岛通常水电短缺,绿色能源+微电网+海水淡化是一种可行的解决方法。首先,笔者从系统规划设计、运行控制优化、电源容量配置优化三方面详述了微电网的发展现状,提出了根据海岛不同条件设计具有一定普适性的微电网系统的远景目标;其次,简述了反渗透海水淡化成本现状,指明海水淡化工程的发展方向应重点关注节能工艺、设备和材料研发、超大型海水淡化工程集成、海水淡化标准引领及政策制定四个方面;最后,针对绿色能源+微电网+海水淡化,从系统优化和经济性两方面进行对比分析,提出绿色能源+微电网+海水淡化组合整体工程优化分析是非常必要的。
Remote islands are usually short of water and electricity and green energy+microgrid+seawater desalination is a feasible solution.Firstly the authors elaborate the development status of microgrid from three aspects system planning and design operation control optimization and power capacity configuration optimization and put forward the long-term goal of designing microgrid system with certain universality according to different conditions of islands.Secondly the cost status of reverse osmosis seawater desalination is briefly described and point out that the development direction of seawater desalination project should focus on four aspects energy-saving process equipment and material research and development integration of ultra-large seawater desalination project seawater desalination standard guidance and policy formulation.Finally for green energy+microgrid+seawater desalination a comparative analysis is made from the aspects of system optimization and economy and it is necessary to propose the overall engineering optimization analysis of green energy+microgrid+seawater desalination.
作者
郭家富
张栋丽
李枝玖
刘春雪
莫小勇
GUO Jiafu;ZHANG Dongli;LI Zhijiu;LIU Chunxue;MO Xiaoyong(Guangxi Electrical Polytechnic Institute,Nanning 530007 China)
出处
《红水河》
2023年第2期54-57,74,共5页
Hongshui River
基金
广西高校中青年教师科研基础能力提升项目(2022KY1343)。
关键词
海岛
微电网
海水淡化
island
microgrid
seawater desalination
