Power Loss Minimization and Voltage Profile Improvement of Radial Distribution Network Through the Installation of Capacitor and Distributed Generation (DG)

Jay Prakash Mahato, Yam Krishna Poudel, Madan Raj Chapagain, Raman Kumar Mandal
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Abstract

The growing demand for electricity has raised concerns about power dissipation in distribution systems. To mitigate these losses, capacitors and distributed generator (DGs), particularly solar PV are strategically placed within the system. This project is committed to reducing power losses and improving the voltage profile through an in-depth analysis, optimizing the placement of capacitor and DG along the distribution feeder. The application of forward and backward sweep (FBS) algorithms assists load flow analysis in distribution networks with high R/X ratios, while the incorporation of the Genetic Algorithm (GA) within MATLAB identifies optimal locations & size for capacitors and DGs inside the large solution space of this complex, nonlinear optimization problem. Test outcomes, conducted on an IEEE 33-bus test system as its convincing representation of medium sized distribution network providing a versatile platform for evaluating proposed methodologies with practical implementation, showcase load flow examination, improvements in voltage profiles and minimized energy dissipation. The methodology is further applied to the real distribution network of the Sallaghari-Thimi 11 kV feeder in Bhaktapur, Nepal, sustaining the approach's effectiveness in mitigating power losses and increasing voltage profiles. Distributed generation with capacitor outperforms capacitors, and DG integration in the power system results in significant reductions of 72.91% in real power loss and 63.45% in reactive power loss, with a notable 6.542% increase in voltage magnitude. Application of these strategies in the Thimi Sallaghari 11 kV feeder demonstrates significant power loss saving (up to 82.72%) and worthy improvements in voltage profiles (up to 5.32%), focusing on their effectiveness in enhancing operational efficiency. This approach provides a practical solution for optimizing capacitor and solar PV distributed generator placement in distribution networks considering various case scenarios.
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通过安装电容器和分布式发电 (DG) 尽量减少径向配电网络的功率损耗并改善其电压曲线
不断增长的电力需求引发了人们对配电系统功率损耗的担忧。为了减少这些损耗,电容器和分布式发电机(DG),尤其是太阳能光伏发电被战略性地安置在系统中。本项目致力于通过深入分析,优化配电馈线上电容器和分布式发电机的布置,从而减少电力损耗,改善电压曲线。前向和后向扫频 (FBS) 算法的应用有助于对具有高 R/X 比的配电网络进行负载流分析,而 MATLAB 中遗传算法 (GA) 的应用则可在这一复杂的非线性优化问题的大型求解空间内确定电容器和 DG 的最佳位置和大小。测试结果是在 IEEE 33 总线测试系统上进行的,该系统是中型配电网络的可靠代表,为评估建议方法的实际实施提供了一个多功能平台,展示了负载流检查、电压曲线改善和能量耗散最小化。该方法进一步应用于尼泊尔巴克塔普尔 Sallaghari-Thimi 11 千伏馈线的实际配电网络,在减少功率损耗和提高电压曲线方面保持了该方法的有效性。带电容器的分布式发电性能优于电容器,将分布式发电集成到电力系统中可显著减少 72.91% 的实际功率损耗和 63.45% 的无功功率损耗,电压幅值显著提高 6.542%。这些策略在 Thimi Sallaghari 11 千伏馈线中的应用显示出显著的电能损耗节省(高达 82.72%)和值得称赞的电压廓线改善(高达 5.32%),集中体现了它们在提高运行效率方面的有效性。考虑到各种情况,该方法为优化配电网络中的电容器和太阳能光伏分布式发电机布置提供了实用的解决方案。
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