Steady-State Analysis of Hybrid Synchronous Machine With Higher Reluctance to Excitation Power Ratio

Q3 Energy

Iranian Journal of Electrical and Electronic Engineering Pub Date : 2022-03-10 DOI:10.22068/IJEEE.18.1.2251

E. O. Agbachi, L. Anih, E. Obe

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引用次数: 1

Abstract

The paper presents the steady-state analysis of a new hybrid synchronous machine with a higher reluctance to excitation power ratio. The machine comprises a round rotor and a salient-pole machine elements that are mechanically coupled together and integrally wound. In each stator, there are two sets of identical poly-phase windings identifiable as the primary and secondary windings which are electrically isolated but magnetically coupled. The primary windings are connected in series between the two sections of the hybrid machine while the secondary windings are connected in anti-series and terminated across a balanced capacitor bank. The hybrid machine exhibits a special feature that when running at the synchronous speed, its effective XD/XQ ratio can be amplified and hence its output by the tuning of the variable capacitance bank which capacitive reactance XC neutralizes only the quadrature axis reactance XQ while the direct axis reactance XD remains unaffected. It is shown that at XD/XQ = 3, the reluctance component of the output power is 2.5 times the excitation power. The calculated and the measured results from the machine are in good conformity.

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高磁阻-励磁功率比混合同步电机的稳态分析

本文对一种新型高磁阻-励磁功率比混合同步电机进行了稳态分析。该机器包括圆转子和凸极机器元件，它们机械耦合在一起并整体缠绕。在每个定子中，有两组相同的多相绕组，可识别为初级和次级绕组，它们是电隔离的，但磁耦合的。初级绕组串联连接在混合电机的两个部分之间，而次级绕组反串联连接并跨平衡电容器组端接。混合动力电机具有一个特殊的特点，即当以同步速度运行时，其有效的XD/XQ比可以被放大，从而通过调整可变电容组来放大其输出，其中电容抗XC只中和交轴抗XQ，而直轴抗XD不受影响。结果表明，在XD/XQ = 3时，输出功率的磁阻分量为励磁功率的2.5倍。机器的计算结果与测量结果吻合良好。

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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