Modelling and Analysis of 18-Pulse Rectification System for DC Traction Power Substation

2021 IEEE Conference on Energy Conversion (CENCON) Pub Date : 2021-10-25 DOI:10.1109/CENCON51869.2021.9627279

A. I. M. Shukran, C. L. Toh, C. Tan

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Abstract

Eighteen-pulse rectifier had been proposed to replace the conventional twelve-pulse rectifier as it may further minimize the ac and dc harmonics distortions. This paper presents a simulation study of implementing an eighteen-pulse rectification system for future dc traction power substation. A phase-shifting transformer with angle displacement of 0, −20, and +20 degrees and three unit of six-pulse diode rectifier are modelled and validated via simulation. The preliminary results had confirmed that this 18-pulse rectification system managed to keep the utility grid voltage and current distortion indexes at about 2% without employing any harmonic filters. However, approximately 1 MVar reactive power must be compensated. Thus, passive harmonics filters are proposed. Three major power quality improvements are observed via simulation after implementing these filters. Firstly, the instantaneous reactive power is kept within the bands of ± 0.12 MVar. Next, an approximate unity power factor can be seen from the grid system. Lastly, the grid voltage and current waveforms distortion are complied with IEEE standard for both normal and contingency operating condition.

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直流牵引变电所18脉冲整流系统建模与分析

由于十八脉冲整流器可以进一步减少交流和直流谐波的畸变，因此提出用十八脉冲整流器代替传统的十二脉冲整流器。本文对未来直流牵引变电所实施十八脉冲整流系统进行了仿真研究。对角位移为0度、−20度和+20度的移相变压器和三个单元的六脉冲二极管整流器进行了建模和仿真验证。初步结果证实，该18脉冲整流系统在不使用任何谐波滤波器的情况下，成功地将电网电压和电流畸变指标保持在2%左右。然而，大约1 MVar的无功功率必须补偿。因此，提出了无源谐波滤波器。在实现这些滤波器后，通过仿真观察到三个主要的电能质量改善。首先，瞬时无功功率保持在±0.12 MVar范围内。其次，可以从电网系统中得到近似的单位功率因数。最后，在正常工况和应急工况下，电网电压和电流波形畸变均符合IEEE标准。

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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2021 IEEE Conference on Energy Conversion (CENCON)

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