发电机孤岛方案设计及RGMO对孤岛频率稳定性的影响评估

2023 IEEE 3rd International Conference in Power Engineering Applications (ICPEA) Pub Date : 2023-03-06 DOI:10.1109/ICPEA56918.2023.10093201

Saibal Ghosh, Pritam Mukherjee, A. Singh, Palash Jyoti Borah, Saurav Kumar Sahay, S. Mondal, S. Konar

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引用次数: 0

摘要

输电系统是电力系统的支柱。输电系统暴露在环境中，容易发生故障。因此，永远不能排除发生意外事件导致大规模停电的可能性。可再生能源并网增加了电力系统的脆弱性。因此，近年来，电力系统的规划人员越来越重视电力系统的弹性。许多网格代码都隐含了弹性的规定。弹性电力系统的关键特征是鲁棒孤岛方案和足够数量的黑启动资源。当一个大的电力系统不能同步运行时，最好建立一个小的岛屿，因为幸存的岛屿可以使恢复过程更快。孤岛方案的成功取决于逻辑的设计和实现。逻辑需要既简单又健壮。要设计一个有效的离岛方案，需要进行广泛的研究。本文对孤岛方案设计进行了各种初步研究，并对研究结果进行了讨论。这些研究的目的仅仅是为了检查这个岛的频率稳定性。这些孤岛逻辑需要完全基于频率逻辑来设计，而不能使用欠压逻辑。这是因为这些岛屿是为首都城市供电而设计的，只有在电网全部或部分故障的情况下才能使用。因此，这里的岛方案设计仅针对岛内的定频和减载方案设计。然而，这些研究都是基于一定的假设，这也将在本文中讨论。其目的是检查一项离岛计划的更广泛可行性。最终的孤岛逻辑可能由各自的发电厂在与其原始设备制造商协商后最终确定。发电机组的调速器在孤岛的成功中起着至关重要的作用。目前在印度电力系统中，发电机采用的是限制调速器运行模式(RGMO)[1]。本文还研究了RGMO对岛屿频率稳定性的影响。

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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Islanding Scheme Design for Generators and Assessment of Impact of RGMO on Frequency Stability of Island

Transmission system forms the backbone of any electrical power system. Transmission systems are exposed to environment and prone to fault. Therefore, chances of unwanted event resulting in large scale blackouts can never be ruled out. Renewable integration has increased the vulnerability of power system. Therefore, over the year resilience is gaining more and more importance for power system planners. Many grid codes have implicit provision of resilience. Key features of a resilient power system are robust islanding scheme and adequate number of black start resources. When a large power system fails to operate in synchronism, it becomes preferable to create small islands as the surviving islands make the restoration process fast. Success of an islanding scheme depends on the design as well as implementation of the logic. Logic needs to be robust as well as simple. Extensive study is required to design an effective islanding scheme. For islanding scheme design various preliminary studies are done and the results are discussed in the paper. The purpose of the studies was solely to check the frequency stability of the island. These islanding logic needs to be designed purely based on frequency logic and no under voltage logic to be used. This is because these islands are designed for supply of capital city, only in case of total or partial grid failure. Therefore, here island scheme design only aims at arriving frequency setting and load shedding scheme design inside the island. However, these studies are done based on certain assumption which will also be discussed in the paper. Its purpose is to check the broader feasibility of an islanding scheme. The final islanding logic may be finalized by the respective generating plants in consultation with their OEMs. The governor of a generating unit has a vital role to play in the success of the islanding. Currently in Indian power system restricted governor mode of operation (RGMO) is in service for generators [1]. In this paper the impact of RGMO on island frequency stability is also studied.

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2023 IEEE 3rd International Conference in Power Engineering Applications (ICPEA)

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