Design of main transformer capacity for electrified railway power systems

PowerCon 2000. 2000 International Conference on Power System Technology. Proceedings (Cat. No.00EX409) Pub Date : 2000-12-04 DOI:10.1109/ICPST.2000.900075

C.S. Chen, H. Chuang, L. Fan

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引用次数: 6

Abstract

This paper investigates the main transformer capacity of an electrified mass rapid transit (MRT) system. The motion equation of a train set is used to solve the mechanical power consumption along the main line according to the operation timetable, the passenger ridership, and various types of operation resistance. The dynamic load demand of traction transformers is derived by executing the DC load flow analysis for the network consisting of rectifiers, conducting rails, car-borne inverters, and three-phase induction motors. The AC load flow simulation is then applied to find the loading of main transformers in the substations. The unit commitment is applied to derive the proper transformer capacity to meet the annual system peak power demand and provide sufficient capacity reserve. To demonstrate the effectiveness of the proposed methodology, the Tamshui-Hsintien line of Taipei MRT network is selected for the design of MRT main transformers. It is found that the loading factor of main transformers has been enhanced dramatically and the cost effectiveness of transformer investment over the life cycle has been obtained.

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电气化铁路电力系统主变容量设计

本文对电气化捷运系统主变压器容量进行了研究。列车组的运动方程是根据运行时刻表、客流量和各种运行阻力，求解主线机械功率消耗的方程。通过对由整流器、导轨、车载逆变器和三相感应电动机组成的电网进行直流潮流分析，得出牵引变压器的动态负荷需求。然后应用交流潮流模拟方法求出变电站主变压器负荷。采用机组承诺法推导出适当的变压器容量，以满足系统年度峰值电力需求，并提供足够的容量储备。为验证此方法的有效性，本文以台北市捷运网淡水至新天线为例，进行捷运主变压器的设计。结果表明，主变压器的负荷系数得到了显著提高，变压器全寿命周期投资的成本效益得到了显著提高。

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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PowerCon 2000. 2000 International Conference on Power System Technology. Proceedings (Cat. No.00EX409)

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