Influence of the air gap length on the magnetic core loss in large hydro generator

A. Aguiar, A. Merkhouf, K. Al-haddad
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引用次数: 12

Abstract

The electromagnetic modeling and simulation of existing hydro electrical generators in operation always requires a large number of variables to carry out an accurate study and to be able to properly validate the different test results. Simulation can be affected by many parameters, such as: The air gap size (the design air gap is always different from the operation air gap due to the thermal expansion) and its uniformity. In this paper, a sensitivity analysis taking into account the air gap length and the excitation current was performed. The sensitivity analysis based on finite element simulation results was performed on an existing large hydro generator of 122.6 MVA, 13.8 kV, 60 Hz, 60 poles with 504 slots, 120 rpm. The obtained results were compared to the certain measured parameters such as the air gap flux density, line current and magnetic core losses.
大型水轮发电机气隙长度对磁芯损耗的影响
现有水轮发电机在运行时的电磁建模与仿真,往往需要大量的变量来进行准确的研究,并能够对不同的试验结果进行适当的验证。仿真会受到许多参数的影响,例如:气隙大小(由于热膨胀,设计气隙总是与运行气隙不同)及其均匀性。本文考虑了气隙长度和励磁电流的影响,进行了灵敏度分析。以一台122.6 MVA、13.8 kV、60 Hz、60极、504槽、120 rpm的大型水轮发电机为研究对象,进行了基于有限元仿真结果的灵敏度分析。将所得结果与气隙磁通密度、线路电流和磁芯损耗等实测参数进行了比较。
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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