Evaluating a Virtual Inertia Control Scheme for a DFIG Wind Turbine

2021 IEEE International Autumn Meeting on Power, Electronics and Computing (ROPEC) Pub Date : 2021-11-10 DOI:10.1109/ropec53248.2021.9668006

A. I. Rosales-Romero, F. Sellschopp-Sánchez, Ricardo Vargas-Salas, M. Arjona-Lopez, R. Loera-Palomo

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Abstract

The power system inertia is considered as one of the fundamental parameters for the dynamic response to disturbances: the inertia of rotating machines determines the immediate response of frequency in power unbalance events. The connection of renewable generation units implies the use of power electronics creating an interface between the grid and the mechanical system, unlike conventional generation, the grid electrical frequency depends directly on the rotor frequency. In wind power generation, the power electronic converter decouples the mechanical speed from the grid's electrical frequency. In this paper, an evaluation of a virtual inertia control scheme for a variable wind speed turbine that simulates the inertia of a conventional generator supporting frequency extracting the inertia of the rotating turbine to improve the early transient response of the synchronous generators is presented. The speed deviation of a synchronous generator is used as a reference signal to feed the torque control on the wind turbine to level the output power as the synchronous generator finds a steady state speed after a disturbance.

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DFIG风力机虚拟惯性控制方案的评估

电力系统惯量被认为是扰动动态响应的基本参数之一:在电力不平衡事件中，旋转机械的惯量决定了频率的即时响应。可再生能源发电机组的连接意味着使用电力电子技术在电网和机械系统之间创建一个接口，与传统发电不同，电网的电气频率直接取决于转子的频率。在风力发电中，电力电子变换器将机械速度与电网的电气频率解耦。本文提出了一种模拟常规发电机支持频率时的惯性的变风速风力机虚拟惯性控制方案，通过提取旋转风力机的惯性来改善同步发电机的早期瞬态响应。同步发电机的转速偏差作为参考信号馈送风电机组的转矩控制，使同步发电机在扰动后达到稳态转速，从而使输出功率达到水平。

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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来源期刊

2021 IEEE International Autumn Meeting on Power, Electronics and Computing (ROPEC)

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