Comparative Evaluation of Ramp-Rate Limitation Control Strategies Employing Supercapacitors

2022 IEEE 21st Mediterranean Electrotechnical Conference (MELECON) Pub Date : 2022-06-14 DOI:10.1109/MELECON53508.2022.9842921

Kyriaki-Nefeli D. Malamaki, G. Kryonidis, C. Demoulias

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引用次数: 5

Abstract

The advent of Converter-Interfaced Distributed Renewable Energy Sources (CI-DRES) has posed several challenges within electric power systems jeopardizing its robustness and stability. On the bright side, the increased controllability of the Voltage Source Converters used as an interface of the CI-DRES with the grid together with the use of fast-acting Energy Storage Systems- such as Supercapacitors (SCs)- enable the CI-DRES to provide Ancillary Services (AS) to the grids. Since the majority of CI-DRES depends on a primary source with intermittent characteristics (wind, solar irradiance, etc.), a possible AS is the Ramp-Rate Limitation (RRL) of the active power of the CI-DRES primary source. This action is also referred as power smoothing. Several control strategies have been proposed in the technical literature, each of them having different advantages or drawbacks. This paper presents a parametric evaluation of the power smoothing control strategies which employ a SC. The parameters analyzed are the involved purchase cost, the measurement time window of the smart meters used within the electric power systems and the finally achieved RRL.

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采用超级电容器的斜坡速率限制控制策略的比较评价

转换器接口分布式可再生能源(CI-DRES)的出现给电力系统带来了一些挑战，危及其稳健性和稳定性。好的一面是，作为CI-DRES与电网接口的电压源转换器的可控性增强，以及快速储能系统(如超级电容器(SCs))的使用，使CI-DRES能够为电网提供辅助服务(as)。由于大多数CI-DRES依赖于具有间歇性特征的一次源(风，太阳辐照度等)，因此可能的AS是CI-DRES一次源有功功率的斜坡速率限制(RRL)。这个动作也被称为功率平滑。技术文献中提出了几种控制策略，每种策略都有不同的优点或缺点。本文对采用SC的电力平滑控制策略进行了参数化评价，分析了涉及的购买成本、电力系统中使用的智能电表的测量时间窗口以及最终实现的RRL。

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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2022 IEEE 21st Mediterranean Electrotechnical Conference (MELECON)

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