A Solar-PV Integrated Novel Reduced-Switch UPQC Device for Power-Quality Improvement

2022 International Conference on Intelligent Controller and Computing for Smart Power (ICICCSP) Pub Date : 2022-07-21 DOI:10.1109/ICICCSP53532.2022.9862409

Sai Venkat Vemala, L. Rao, Teja Yarroju, Sai Kiran Utla, Subhani Shaik

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Abstract

Recent days, the efficient distributed generation scheme is encouraged for obtaining required load demand by employing solar-PV energy generation complying with power-quality limitations. Amid of various custom-power devices, the Universal Power-Quality Compensator is the best choice for compensation of both voltage and current allied power-quality issues in distribution system. But, the traditional UPQC device consists of more switching devices which increases the dv/dt stress, switching loss, low efficiency performance, etc. In this regard, a novel reduced-switch UPQC has been proposed with the requirement of fewer switch elements over the traditional UPQC device. The proposed RSUPQC device is used for enhancing power-quality features and DG integration scheme for stabilizing the utility-grid fluctuations by using novel modulation-rate control technique. The performance of proposed RSUPQC device is verified in both power-quality enhancement and DG integration modes by using Matlab/Simulink tool, results are presented.

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一种改进电能质量的新型太阳能-光伏集成少开关UPQC装置

近年来，高效的分布式发电方案受到鼓励，通过采用符合电能质量限制的太阳能光伏发电来获得所需的负荷需求。在各种自定义功率器件中，通用电能质量补偿器是对配电系统电压和电流相关电能质量问题进行补偿的最佳选择。但是，传统的UPQC器件由较多的开关器件组成，增加了dv/dt应力、开关损耗、效率低下等问题。为此，提出了一种新型的减少开关的UPQC，它比传统的UPQC设备要求更少的开关元件。提出的RSUPQC装置用于增强电能质量特性，DG集成方案采用新颖的调制速率控制技术来稳定电网波动。利用Matlab/Simulink工具对RSUPQC器件在电能质量增强和DG集成两种模式下的性能进行了验证，并给出了结果。

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2022 International Conference on Intelligent Controller and Computing for Smart Power (ICICCSP)

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