EDDY CURRENTS CALCULATION IN A THREE-PHASE INDUCTION-TYPE HEAT GENERATOR USING THE SECONDARY SOURCES METHOD. CURRENT MODE

Q3 Energy

Technical Electrodynamics Pub Date : 2023-06-15 DOI:10.15407/techned2023.04.003

 А.В. Жильцов, Н.А докт. техн. наук, Заєць, докт. техн. наук А.О, Березюк, О.В канд. техн. наук, Гай, В.В канд. техн. наук, Ликтей

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Abstract

Using the secondary sources method, a three-dimensional mathematical model of a heat induction type generator was devel-oped when it is powered by a three-phase current source with a load in the form of non-connected ferromagnetic conducting pipes, taking into account the symmetrical distribution of the densities of the electromagnetic field secondary sources. The analysis of the secondary sources distribution of the electromagnetic field and heat losses in the loaded one allowed us to conclude about the possibility of neglecting the components of eddy current densities and magnetization current densities along the symmetry axis of the pipes and in the radial direction, which reduces the number of secondary source densities sought from six to three. It is shown that for the analysis of electromagnetic processes in heat generators of this type, it is permissible to assume the uniformity of the secondary sources density distribution in all pipes, which, when using the method of secondary sources, makes it possible to reduce the search area to one ferromagnetic base pipe. References 8, figures 3, table 1.

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用二次源法计算三相感应式热源的涡流。当前模式

利用二次源方法，考虑电磁场二次源密度的对称分布，建立了以非连通铁磁导管形式负载的三相电流源驱动的热感应式发电机的三维数学模型。通过对加载管道中电磁场和热损失的二次源分布的分析，我们得出了忽略沿管道对称轴和径向涡流密度和磁化电流密度分量的可能性，从而将寻找的二次源密度数量从6个减少到3个。结果表明，对于这种类型的热发生器的电磁过程分析，可以假定所有管道中的二次源密度分布均匀，当使用二次源方法时，可以将搜索区域缩小到一个铁磁基管。参考文献8，图3，表1。

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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