Transient Behavior Analysis of Microgrids in Grid-Connected and Islanded Modes: A Comparative Study of LVRT and HVRT Capabilities

IF 4.2 4区环境科学与生态学 Q2 ENGINEERING, ENVIRONMENTAL

Clean Technologies and Environmental Policy Pub Date : 2023-11-10 DOI:10.3390/cleantechnol5040065

Abrar Shahriar Pramanik, Saeed Sepasi

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Abstract

Microgrids, with integrated PV systems and nonlinear loads, have grown significantly in popularity in recent years, making the evaluation of their transient behaviors in grid-connected and islanded operations paramount. This study examines a microgrid’s low-voltage ride-through (LVRT) and high-voltage ride-through (HVRT) capabilities in these operational scenarios. The microgrid’s behavior was analyzed using both electromagnetic transient (EMT) and RMS simulation methods. Two operational modes, grid-connected and islanded, were considered. A three-phase diesel generator acted as a reference machine in islanded mode. Findings highlighted distinct behaviors in the two operational modes. The EMT simulation revealed in-depth characteristics of electrical parameters, showing high-frequency oscillations more precisely than the RMS simulation. Additionally, the transient recovery times were longer in islanded mode compared to grid-connected mode. The EMT simulation offers a more detailed portrayal of transient behaviors than the RMS simulation, especially in capturing high-frequency disturbances. However, its completion time becomes significantly extended with longer simulation durations. Microgrids showcase distinct transient behaviors in grid-connected versus islanded modes, especially in LVRT and HVRT scenarios. These findings are critical for the design and operation of modern microgrids.

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并网与孤岛模式下微电网暂态行为分析:LVRT与HVRT能力的比较研究

近年来，集成光伏系统和非线性负载的微电网越来越受欢迎，因此对其并网和孤岛运行的暂态行为进行评估至关重要。本研究考察了微电网在这些运行场景下的低压穿越(LVRT)和高压穿越(HVRT)能力。采用电磁瞬变(EMT)和RMS仿真方法对微电网的行为进行了分析。考虑了并网和孤岛两种运行模式。在孤岛模式下，三相柴油发电机作为基准机。研究结果突出了两种操作模式的不同行为。EMT仿真更深入地揭示了电参数的特征，比RMS仿真更精确地显示了高频振荡。此外，与并网模式相比，孤岛模式下的瞬态恢复时间更长。EMT模拟提供了比RMS模拟更详细的瞬态行为描述，特别是在捕获高频干扰方面。然而，随着仿真持续时间的延长，其完成时间会显著延长。微型电网展示不同的瞬态行为在短时间与坐落模式,尤其是LVRT和HVRT场景。这些发现对现代微电网的设计和运行至关重要。

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来源期刊

Clean Technologies and Environmental Policy 环境科学-工程：环境

CiteScore

8.10

自引率

7.00%

发文量

179

审稿时长

8 months

期刊介绍： This journal publishes papers that aid in the development, demonstration, and commercialization of cleaner products and processes as well as effective environmental policy strategies. As its title suggests, the journal has two major thrusts: Clean Technologies and Environmental Policy. The Clean Technology thrust addresses the science and engineering of clean technologies. Moreover, it examines mathematical and computer-based methods and models for designing, analyzing, and measuring the cleanliness of products and processes. The Environmental Policy thrust covers research advances in scientific, social, behavioral, and economics disciplines that are relevant to complex environmental policy issues. In addition to research papers, the journal offers policy-oriented commentaries from world renowned leaders in environmental technology and policy research. It also features special issues focusing on topics of international concern.