Capacitively-excited single-phase asynchronous generator for autonomous applications

Q4 Engineering

Nigerian Journal of Technological Development Pub Date : 2022-08-01 DOI:10.4314/njtd.v19i2.4

K. Sanusi, L. Olatomiwa, A. Mohammed, K. A. Sodiq

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Abstract

The need to decentralize power generation and decarbonize the earth in order to have a sustainable global economy are the major reasons for the development of this paper. Considering the flaws of grid-connected power system, the autonomous system becomes a better alternative in rural and isolated areas. Analysis of stand-alone single-phase Asynchronous generator based on d-q model in a stationary reference frame is presented. Asynchronous generator does not have the capability to produce reactive power necessary for excitation and this must be provided by external means. Capacitive method has been considered in this paper due to its simplicity and its economic viability. The effects of magnetic saturation in the airgap has been considered by using the nonlinear relationship between the magnetizing inductance and the magnetizing current of the machine. Under this approach, the mutual inductance varies continuously. The results have shown that steady state condition of the generated voltage is not fixed but depends on the suitable combination of excitation capacitance and the rotor speed.

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自主应用的电容激励单相异步发电机

为了拥有可持续的全球经济，需要分散发电和使地球脱碳，这是本文发展的主要原因。考虑到并网电力系统的缺陷，自治系统成为农村和偏远地区更好的选择。在静止参照系下，对单机单相异步发电机进行了基于d-q模型的分析。异步发电机不具备产生励磁所需的无功功率的能力，必须通过外部手段提供。由于电容法的简单性和经济可行性，本文考虑了电容法。利用电机磁化电感与磁化电流之间的非线性关系，考虑了气隙中磁饱和的影响。在这种方法下，互感是连续变化的。结果表明，产生电压的稳态条件不是固定的，而是取决于励磁电容和转子转速的适当组合。

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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