静态安全域约束的多区域大规模新能源接纳能力研究与应用  被引量:7

Research and Application of Multi-Area Large-Scale New Energy Integration Capability with Steady-State Security Region Constraints

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作  者:苏宜强 刘盛松 SU Yiqiang;LIU Shengsong(State Grid Jiangsu Electric Power Co.,Ltd.,Nanjing 210024,China)

机构地区:[1]国网江苏省电力有限公司,江苏南京210024

出  处:《中国电力》2021年第9期165-175,共11页Electric Power

基  金:国家电网有限公司科技项目(SGTYHT/17-JS-199)。

摘  要:随着中国风电、太阳能等新能源并网容量的迅速发展,大规模新能源接纳受到关注。提出一种多区域大规模新能源接纳能力评估方法,将电力系统静态安全域(steady-state security region,SSSR)定义在新能源多区域功率注入空间上,根据大规模新能源场站接入的地域性与资源特性,对每个区域定义一组新能源功率增长方向,在一维空间建立新能源接纳能力最优化数学模型,经最优潮流遍历不同区域组合而成的全系统新能源功率增长方向来搜索SSSR临界点,通过这些临界点构建超平面,以近似新能源多区域功率注入空间的SSSR边界,从而在多维空间评估多区域大规模新能源接纳能力。通过对某省级1975节点实际电网进行计算,结果表明:提出的多区域大规模新能源接纳能力的计算方法是实用有效的。With the rapid increase in the installed capacities of wind power and PV power in China,large-scale new energy integration has received wide attention.An evaluation method for multi-area large-scale new energy integration capability is proposed in this paper.The steady-state security region(SSSR)of a power system is defined in the multi-area new energy power injection space.According to the regional and resource characteristics of the large-scale new energy station access,a group of power growth directions is defined for each region,and a mathematical optimization model of new energy integration capability is built in one-dimension space.The optimal power flow traverses the new energy power growth directions of the whole system composed of different regions to search for the critical points of SSSR.Based on these critical points,a hyperplane is constructed to approximate the SSSR boundary of multi-area new energy power injection space,so as to evaluate the multi-area large-scale new energy integration capability in multi-dimensional space.Numerical results of a provincial 1975-bus system are presented,proving that the proposed model is practical and effective.

关 键 词:新能源 接纳能力 静态安全域 最优潮流 

分 类 号:TM73[电气工程—电力系统及自动化] TK01[动力工程及工程热物理]

 

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