A Virtual Resistance Optimization Method Based on Hybrid Index in Low-Voltage Microgrid

IF 0.6 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC Recent Advances in Electrical & Electronic Engineering Pub Date : 2023-07-31 DOI:10.2174/2352096516666230731143503
Yifei Yin
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Abstract

The introduction of virtual resistance can effectively suppress the circulating current between micro-sources and improve power allocation in low-voltage microgrid, but it also causes the voltage deviation of micro-sources’ inverters. An optimization method of virtual resistance based on hybrid index is proposed in order to suppress circulating current and improve voltage deviation at the same time in this paper. The gradient descent method is used to design the virtual resistance optimization process, aiming at the optimization of hybrid index composed of circulating current and voltage deviation. The constraints are deduced with power quality requirements, capacity limitation and static stability, and then virtual resistance values are optimized. The effects of switching load and micro-source on the optimization results are analyzed through the simulation of low-voltage microgrid, and the simulation results show that the virtual resistance optimization method can significantly suppress circulating current while improving power quality. When distributed generators are connected to utility grid through inverters and feeders, differences in feeder parameters and inverter control strategies easily cause circulating current and uneven power distribution among micro-sources. The introduction of virtual resistance can effectively suppress the circulating current between micro-sources and improve power allocation in low-voltage microgrids, but it also causes the voltage deviation of micro-sources’ inverters. An optimization method of virtual resistance based on hybrid index is proposed in order to suppress circulating current and improve voltage deviation. The gradient descent method is used to design the virtual resistance optimization process, aiming at the optimization of hybrid index composed of circulating current and voltage deviation. The constraints are deduced with power quality requirements, capacity limitation and static stability, and then virtual resistance values are optimized. In the simulation scenario of two micro-sources and three micro-sources, the virtual resistance obtained by the method proposed in this paper has more obvious improvement on the system operation index, and is not affected by the load type. The method of optimizing virtual resistance based on the hybrid index can achieve the effect of restraining circulating current and improving power sharing degree on the premise of guaranteeing power quality and satisfying system stability. The optimization of virtual resistance is affected by the number of feeders. It is necessary to re-optimize the virtual resistance after changing the number of feeders, but the process of switching micro-source and adjusting load does not affect the optimized resistance value.
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基于混合指标的低压微电网虚拟电阻优化方法
虚电阻的引入可以有效抑制微源间的循环电流,改善低压微电网的功率分配,但也会造成微源逆变器的电压偏差。本文提出了一种基于混合指标的虚拟电阻优化方法,既能抑制循环电流,又能改善电压偏差。采用梯度下降法设计虚拟电阻优化过程,针对由循环电流和电压偏差组成的混合指标进行优化。从电能质量要求、容量限制和静态稳定性三个方面推导了约束条件,并对虚拟电阻值进行了优化。通过对低压微电网的仿真,分析了开关负载和微源对优化结果的影响,仿真结果表明,虚拟电阻优化方法可以显著抑制循环电流,同时改善电能质量。当分布式发电机通过逆变器和馈线接入电网时,馈线参数和逆变器控制策略的差异容易造成微源间的循环电流和功率分布不均匀。虚电阻的引入可以有效抑制微源间的循环电流,改善低压微电网的功率分配,但也会造成微源逆变器的电压偏差。为了抑制回路电流,改善电压偏差,提出了一种基于混合指标的虚电阻优化方法。采用梯度下降法设计虚拟电阻优化过程,针对由循环电流和电压偏差组成的混合指标进行优化。从电能质量要求、容量限制和静态稳定性三个方面推导了约束条件,并对虚拟电阻值进行了优化。在两个微源和三个微源的仿真场景下,本文方法获得的虚拟电阻对系统运行指标的改善更为明显,且不受负载类型的影响。基于混合指标的虚拟电阻优化方法可以在保证电能质量和满足系统稳定性的前提下,达到抑制循环电流和提高功率共享程度的效果。虚拟电阻的优化受馈线数量的影响。改变馈线数量后需要重新优化虚电阻值,但切换微源和调整负载的过程并不影响优化后的电阻值。
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来源期刊
Recent Advances in Electrical & Electronic Engineering
Recent Advances in Electrical & Electronic Engineering ENGINEERING, ELECTRICAL & ELECTRONIC-
CiteScore
1.70
自引率
16.70%
发文量
101
期刊介绍: Recent Advances in Electrical & Electronic Engineering publishes full-length/mini reviews and research articles, guest edited thematic issues on electrical and electronic engineering and applications. The journal also covers research in fast emerging applications of electrical power supply, electrical systems, power transmission, electromagnetism, motor control process and technologies involved and related to electrical and electronic engineering. The journal is essential reading for all researchers in electrical and electronic engineering science.
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