Optimal hybrid photovoltaic distributed generation and distribution static synchronous compensators planning to minimize active power losses using adaptive acceleration coefficients particle swarm optimization algorithms

IF 1.6 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC Electrical Engineering & Electromechanics Pub Date : 2023-10-21 DOI:10.20998/2074-272x.2023.6.15
M. A. Labed, M. Zellagui, M. Benidir, H. Sekhane, N. Tebbakh
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Abstract

The paper aims to identify the optimum size and location of photovoltaic distributed generation systems and distribution static synchronous compensators (DSTATCOMs) systems to minimize active power losses in the distribution network and enhance the voltage profile. The methodology employed in this article begins by thoroughly discussing various acceleration algorithms used in Particle Swarm Optimization (PSO) and their variations with each iteration. Subsequently, a range of PSO algorithms, each incorporating different variations of acceleration coefficients was verified to solve the problem of active power losses and voltage improvement. Simulation results attained on Standard IEEE-33 bus radial distribution network prove the efficiency of acceleration coefficients of PSO; it was evaluated and compared with other methods in the literature for improving the voltage profile and reducing active power. Originality. Consists in determining the most effective method among the various acceleration coefficients of PSO in terms of minimizing active power losses and enhancing the voltage profile, within the power system. Furthermore, demonstrates the superiority of the selected method over others for achieving significant improvements in power system efficiency. Practical value of this study lies on its ability to provide practical solutions for the optimal placement and sizing of distributed generation and DSTATCOMs. The proposed optimization method offers tangible benefits for power system operation and control. These findings have practical implications for power system planners, operators, and policymakers, enabling them to make informed decisions on the effective integration of distributed generation and DSTATCOM technologies.
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基于自适应加速系数粒子群优化算法的混合光伏分布式发电和配电静态同步补偿器有功损耗最小规划
本文旨在确定光伏分布式发电系统和配电静态同步补偿器(DSTATCOMs)系统的最佳尺寸和位置,以最大限度地减少配电网中的有功功率损耗并改善电压分布。本文采用的方法首先深入讨论了粒子群优化(PSO)中使用的各种加速算法及其每次迭代的变化。随后,验证了一系列包含不同加速度系数变化的粒子群算法,以解决有功功率损耗和电压改善问题。在标准IEEE-33总线径向配电网上的仿真结果证明了粒子群算法的有效性;并与文献中其他改善电压分布、降低有功功率的方法进行了评价和比较。创意。在于确定在PSO的各种加速系数中,在电力系统内最大限度地减少有功功率损耗和提高电压分布方面最有效的方法。此外,还论证了所选方法在实现电力系统效率显著提高方面的优越性。本研究的实用价值在于能够为分布式发电和dstatcom的最佳布局和规模提供实用的解决方案。所提出的优化方法为电力系统的运行和控制提供了切实的效益。这些发现对电力系统规划者、运营商和政策制定者具有实际意义,使他们能够就分布式发电和DSTATCOM技术的有效整合做出明智的决策。
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来源期刊
Electrical Engineering & Electromechanics
Electrical Engineering & Electromechanics ENGINEERING, ELECTRICAL & ELECTRONIC-
CiteScore
2.40
自引率
50.00%
发文量
53
审稿时长
10 weeks
期刊最新文献
The mutual influence of exciting and induced currents in the circular solenoid – massive conductor system Current-voltage characteristics of single-stage semiconductor magnetic pulse generators with a distinctive structure of the conversion link in the input circuit Optimal hybrid photovoltaic distributed generation and distribution static synchronous compensators planning to minimize active power losses using adaptive acceleration coefficients particle swarm optimization algorithms Estimation of electrical resistivity of conductive materials of random shapes Modeling and research of a magnetoelectric converter for hydro and pneumo actuators
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