Reconfiguration of Power Distribution Systems in the Presence of Voltage-Dependent Loads

2023 IEEE Texas Power and Energy Conference (TPEC) Pub Date : 2023-02-13 DOI:10.1109/TPEC56611.2023.10078635

M. Mahdavi, K. Schmitt, Stephen B. Bayne, M. Chamana

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Abstract

Load power can be changed by voltage fluctuation of network buses, in which reconfiguring the topology of distribution systems impacts the magnitude of bus voltages. Only a few papers have considered voltage-dependent loads in their reconfiguration models but introduced nonlinear formulations or highly approximated linear approaches. While nonlinear models can be solved by metaheuristic algorithms without guaranteeing the optimality of solutions or may be implemented by commercial nonlinear solvers, they require intensive and time-consuming computations. Moreover, linearized models are highly approximated by piecewise linear functions with many unknown parameters. Thus, this paper presents the effective design of the reconfiguration problems, including voltage dependency of loads, which can be solved using commercial linear solvers. The proposed models are precise enough to find accurate results for the reconfiguration problem and are adequately fast to converge to optimal solutions. The results show that the proposed solutions not only reduce active power losses significantly but increase the minimum voltage of the system effectively.

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存在电压相关负载时配电系统的重构

网络母线电压波动会改变负载功率，其中配电系统拓扑结构的重新配置会影响母线电压的大小。只有少数论文在其重构模型中考虑了电压相关负载，但引入了非线性公式或高度近似的线性方法。虽然非线性模型可以用元启发式算法求解而不保证解的最优性，或者可以由商业非线性求解器实现，但它们需要大量且耗时的计算。此外，线性化模型可以用带有许多未知参数的分段线性函数高度逼近。因此，本文提出了重构问题的有效设计，包括负载的电压依赖性，这可以用商用线性求解器来解决。所提出的模型足够精确，可以为重构问题找到准确的结果，并且足够快地收敛到最优解。结果表明，所提出的方案不仅能显著降低有功功率损耗，而且能有效提高系统的最小电压。

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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2023 IEEE Texas Power and Energy Conference (TPEC)

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