Rating Reduction and Optimized DC-Link Voltage of the HPQC in Co-Phase Traction Power System

Q3 Energy

Iranian Journal of Electrical and Electronic Engineering Pub Date : 2021-06-10 DOI:10.22068/IJEEE.17.2.1377

M. Habibolahzadeh, A. Jalilian

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引用次数: 3

Abstract

Electric traction trains are huge non-linear single-phase loads influencing adversely on power quality parameters on the grid side. Hybrid power quality conditioner (HPQC) has been utilized to compensate current unbalance, harmonics, and low power factor in the co-phase traction system simultaneously. By incrementing the traction load, the rating of the HPQC increases and may constraints its application. In this paper, a C-type filter is designed to compensate for some part of the load reactive power while the HPQC compensates the remaining part of the load reactive power. Hence, the capacity of the HPQC is reduced in full compensation (FC) mode compared to the conventional configuration. The satisfactory performance of the HPQC is associated with its DC-link operating voltage. Therefore, the Genetic algorithm (G.A) is adopted to optimize the DClink voltage performance. Simulation verifications are performed to illustrate the usefulness of the proposed configuration. The simulation results show an 18.86% reduction in the rating of the HPQC with optimized DC-link voltage.

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同相牵引电力系统HPQC的降额和直流环节电压优化

电力牵引列车是巨大的非线性单相负荷，对电网侧电能质量参数有不利影响。混合电能质量调节器(HPQC)用于同步补偿同相牵引系统中的电流不平衡、谐波和低功率因数。随着牵引载荷的增加，高速高速列车的额定功率也会增加，这可能会限制其应用。本文设计c型滤波器补偿部分负荷无功功率，HPQC补偿剩余负荷无功功率。因此，与传统配置相比，HPQC的容量在全补偿(FC)模式下减少。HPQC令人满意的性能与其直流链路工作电压有关。因此，采用遗传算法(ga)优化DClink电压性能。进行了仿真验证，以说明所建议配置的有效性。仿真结果表明，优化直流链路电压后，HPQC的额定电压降低了18.86%。

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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