使用算术优化算法优化径向配电网络中的 DG 安装

Indrajit Dey, Provas Kumar Roy
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引用次数: 0

摘要

这项工作的目的是以适当的方式在径向配电网(RDN)中安排分布式发电(DG)。为此采用了一种名为算术优化算法(AOA)的高效方法。有效布置 DG 的目的是减少功率损耗,改善 RDN 中的电压形状和电压稳定度。建议的 AOA 方法已在 33 总线、69 总线、85 总线和 118 总线 RDN 上进行了演示,以确定具有不同功率因数(统一、固定和最佳)的 DG 的最佳方向和容量。通过使用这种预测技术,RDN 的执行在电压稳定性最大化、电压波动减缓和减少实际功率损耗方面都得到了改善。这里推荐的 AOA 方法比文献中的几种优化技术提供了更好的解决方案。在 33、69、85 和 118 总线系统中,推荐的 AOA 技术分别为情况 1 至情况 3 提供了功率损耗百分比改进(65.50%、86.48% 和 94.43%)、(69.16%、90.80% 和 98.10%)、(44.57%、66.61% 和 80.26%)和(60.34%、88.80% 和 90.31%)。对于 33、69 和 118 总线系统,情况 1 至情况 3 在电压偏差最小化方面的改进百分比分别为(99.53%、99.83% 和 99.84%)、(99.88%、99.91% 和 99.92%)和(97.53%、98.98% 和 99.16%)。对于不同的测试系统(33、69 和 118 总线),情况 1 至情况 3 的电压稳定指数最大化改进率分别为(31.33%、31.80% 和 31.81%)、(30.15%、31.25% 和 31.25%)和(37.78%、39.23% 和 40.88%)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimal installation of DG in radial distribution network using arithmetic optimization algorithm

The purpose of this work is an arrangement of distributed generation (DG) in radial distribution networks (RDNs) in an adequate way. An efficient method, named arithmetic optimization algorithm (AOA) is used for that purpose. The intention for effective DG posting is to decrease the power loss and upgrade the voltage shape and voltage steadiness magnification in RDNs. The demonstration of the suggested AOA method has been made on 33-bus, 69-bus, 85-bus, and 118-bus RDNs for optimum orientation and capacity of DGs with distinct power factors (unity, fixed, and optimal). By using this projected technique, the execution of RDNs is improved with respect to voltage stability maximization, voltage fluctuation mitigation, and also reduction of real power loss. The AOA method which is recommended here, grants a better solution than several optimization techniques found in the literature. This recommended AOA technique provides the percentage improvement of power loss for case 1 to case 3 (65.50%, 86.48%, and 94.43%), (69.16%, 90.80%, and 98.10%), (44.57%, 66.61%, and 80.26%), and (60.34%, 88.80%, and 90.31%) for 33, 69, 85, and 118-bus systems, respectively. The percentage improvement in voltage deviation minimization for case 1 to case 3 are (99.53%, 99.83%, and 99.84%), (99.88%, 99.91%, and 99.92%), and (97.53%, 98.98%, and 99.16%) for 33, 69, and 118-bus systems, respectively. For different test systems (33, 69, and 118-bus) improvements in voltage stability index maximization for case 1 to case 3 are (31.33%, 31.80%, and 31.81%), (30.15%, 31.25%, and 31.25%), and (37.78%, 39.23%, and 40.88%), respectively.

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