Fault-Tolerant Controller Applied to a Wind System Using a Doubly Fed Induction Generator

Wind Pub Date : 2024-03-22 DOI:10.3390/wind4020005

O. Morfín, Diego Delgado, Alan Campos, Miguel Murillo, Jesús I. Hernández, Pedro Esquivel

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Abstract

Wind systems are sustainable and economical options for producing electrical energy. These systems efficiently manage the power flow by maximizing wind power and consuming reactive power from the grid. In addition, wind systems must maintain operation despite utility grid electrical failure; hence, their control system must not collapse. This study proposes a fault-tolerant converter controller to ensure the efficient operation of wind system converters. The central concept behind this is that when there is an imbalance in the utility grid voltage due to a fault nearby or far away, positive and negative sequence voltages are created in the time domain. Then, two parallel controllers operate to allow the wind system to continue operating despite the failure. One controller utilizes positive sequence voltages as inputs to regulate the generator’s electromagnetic torque. This helps in maximizing the amount of wind energy. The second controller uses negative sequence voltages as inputs, which helps to cancel out the produced torque in the opposite direction, thereby preventing generator overload. Finally, the controllers proposed in this article are validated through simulations, and the results are presented.

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容错控制器应用于使用双馈感应发电机的风力系统

风能系统是生产电能的可持续和经济的选择。这些系统通过最大限度地利用风能和消耗电网的无功功率来有效管理电力流。此外，风能系统必须在公用电网发生电力故障时仍能保持运行，因此其控制系统不能崩溃。本研究提出了一种容错变流器控制器，以确保风能系统变流器的高效运行。其核心理念是，当附近或远处的故障导致市电电网电压不平衡时，时域中会产生正序电压和负序电压。然后，两个并行控制器开始运行，使风能系统在发生故障时仍能继续运行。其中一个控制器利用正序电压作为输入来调节发电机的电磁转矩。这有助于最大限度地利用风能。第二个控制器使用负序电压作为输入，有助于抵消反方向产生的扭矩，从而防止发电机过载。最后，本文提出的控制器通过模拟进行了验证，并展示了结果。

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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Wind

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