风力涡轮驱动孤立多相感应电机的持续电压控制

IF 1.5 0 ENGINEERING, MULTIDISCIPLINARY

Engineering, Technology & Applied Science Research Pub Date : 2023-10-13 DOI:10.48084/etasr.6330

Marwa Ben Sliemene, Mohamed Arbi Khlifi

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引用次数: 0

摘要

随着人们对能源危机和环境保护的日益关注，人们对风力发电系统的兴趣日益浓厚。研究人员和工程师迫切需要为风能生产创造新的多相感应电机，因为它们是风力涡轮机的重要组成部分。基于多相感应电机线性化模型的熵稳定性要求，对其进行控制与稳定性分析。利用所建立的模型对多相感应电机的有载特性进行了评估，并计算了其在各种工况下的稳态参数。根据分析，特征值与电机参数有关，其中励磁电容和转速变化最为重要。多相感应电机的稳定问题是奇异值的主要问题，奇异值随其变量的变化而变化。模拟结果包括多相感应电机在各种类型负载下电压积累的稳态检查。

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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Persistent Voltage Control of a Wind Turbine-Driven Isolated Multiphase Induction Machine

The growing concern about the energy crisis and environmental protection has caused a growing interest in wind power generation systems. Researchers and engineers urgently need to create new multiphase induction machines for the production of wind energy, since they are essential parts of wind turbines. This study offers control and stability analysis of a multiphase induction machine based on the entropy stability requirements for its linearized model. The generated model was used to assess the on-load properties of the multiphase induction machine and calculate its steady-state parameters under each operating circumstance. According to the analysis, the eigenvalues depend on the machine parameters, with the excitation capacitance and speed variation being the most important. Stabilization of the multiphase induction machine is the main focus of the singular values, which vary according to its variables. The simulated results include an examination of a multiphase induction machine steady state for voltage build-up at various types of load.

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