含T接IIDG的新型配电系统故障计算方法OA
Fault Calculation Method of New Distribution Network with T-connected IIDG
传统配网故障计算方法在逆变型分布式电源(IIDG)多点T接于配网场景下存在计算过程复杂、计算量大的问题.为此,提出一种适用于含T接IIDG新型配电系统的故障计算方法.首先,根据电源类型,将配网故障复合序网分为由传统机组单独作用的子网与含IIDG的支路子网;其次,为避免系统内非线性元件参与计算时带来的庞大计算量,采用虚拟电压源等效法对支路子网进行区域迭代计算以确定IIDG的输出情况;最后,将配网故障复合序网内的IIDG由等值恒流源代替,用线性变化法求解得到满足精度要求的系统故障特征量.仿真结果表明,所提方法正确、有效,且在保证计算精确性的前提下简化了含IIDG新型配电系统的故障特征量求解过程,大幅缩短了求解时间.
The traditional fault calculation method in the case of distribution network with multi-point T-connected inverter interfaced distributed generator(IIDG)has the problems of complicated calculation process and large calculation amount.Therefore,a fault calculation method for new distribution systems with T-connected IIDG was proposed.Firstly,according to the type of power supply,the fault network of distribution network was divided into two types:the subnets with traditional units and the branch subnets with IIDG.Secondly,in order to avoid the huge amount of calculation caused by the nonlinear components in the system,the virtual voltage source method was used to perform regional iterative calculation on the branch subnet to determine the output of IIDG.Finally,the IIDG in the distribution network was replaced by the equivalent constant current source,and the system fault characteristic values satisfying the accuracy requirement was obtained by linear variation method.The simulation results show that the proposed method is correct and effective,and it simplifies the solution process of fault characteristics quantity in the new distribution system with IIDG under the premise of ensuring the calculation accuracy,and greatly shortens the solution time.
张元波;吉伟;张赟;戴志辉;何静远
国网保定供电公司,河北 保定 071000||保定吉达电力设计有限公司,河北 保定 071000国网保定供电公司,河北 保定 071000||保定吉达电力设计有限公司,河北 保定 071000国网保定供电公司,河北 保定 071000||保定吉达电力设计有限公司,河北 保定 071000华北电力大学(保定)河北省分布式储能与微网重点实验室,河北 保定 071003华北电力大学(保定)河北省分布式储能与微网重点实验室,河北 保定 071003
信息技术与安全科学
新型配电系统逆变型分布式电源故障特征虚拟电压源等值恒流源区域迭代
new distribution systeminverter interfaced distributed generator(IIDG)fault characteristicsvirtual voltage sourceequivalent constant current sourceregion iteration
《电气传动》 2026 (3)
43-51,9
国家电网有限公司科技资助项目(含高渗透率分布式新能源和储能装置的有源配电网控制策略及保护装置研究)
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