Multi-Objective Optimal Reactive Power Dispatch Considering Probabilistic Load Demand Along with Wind and Solar Power Integration

2020 2nd International Conference on Smart Power & Internet Energy Systems (SPIES) Pub Date : 2020-09-15 DOI:10.1109/SPIES48661.2020.9243016

M. Keerio, Aamir Ali, Muhammad Saleem, N. Hussain, Riaz Hussain

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引用次数: 12

Abstract

Fast growing of uncertain renewable energy sources (RES) in power system results difficult to control reactive power. The purpose of optimal reactive power dispatch (ORPD) is to find the appropriate values of PV bus voltages, transformer tapings and shunt var compensation. For the solution to ORPD two conflicting objective functions, active power loss and voltage deviation are minimized simultaneously. Because of the stochastic behavior of wind and solar power generation, appropriate probability distribution functions are considered to model them with Monte-Carlo simulation technique. Solution to multi-objective ORPD (MO-ORPD) problem, NSGA-II along with constraint technique is proposed. Furthermore, IEEE standard 30-bus system is adopted to find the superiority and effectiveness of NSGA-II. Two study cases such as deterministic and stochastic (scenario-based) are considered to analyze the simulation results. The obtained simulation results show that the proposed algorithm has the ability to find the global optimal solution in all the scenarios.

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考虑概率负荷需求及风电与太阳能并网的多目标无功优化调度

电力系统中不确定可再生能源的快速增长给无功控制带来了困难。最优无功调度(ORPD)的目的是找到合适的PV母线电压、变压器接线和并联无功补偿的值。在解决ORPD两个相互冲突的目标函数时，要同时最小化有功功率损耗和电压偏差。由于风能和太阳能发电的随机特性，采用蒙特卡罗模拟技术考虑了合适的概率分布函数对其进行建模。针对多目标ORPD (MO-ORPD)问题，提出了基于约束技术的NSGA-II求解方法。采用IEEE标准的30总线系统，验证了NSGA-II的优越性和有效性。考虑了确定性和随机(基于场景的)两种研究案例来分析仿真结果。仿真结果表明，该算法在所有场景下都能找到全局最优解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2020 2nd International Conference on Smart Power & Internet Energy Systems (SPIES)

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