MATHEMATICAL POWER FLOW MODEL IN AN ELECTRICAL SYSTEM CONTAINING A SERIAL COMPENSATOR THRISTOR CONTROLLED REACTIVE COMPONENT

M. Misrikhanov, Sh Khamidov
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引用次数: 5

Abstract

A unified mathematical model of the power flow in a system containing a reactive component compensator consisting of capacitor banks connected in series to a thyristor control reactor is presented. The application of the FACTS (Flexible Alternative Current Transmission System - Controlled flexible DC power transmission) technology is shown to reduce the gap between the controlled and unmanaged modes of operation of the electric power system (EPS), presenting dispatching personnel with additional degrees of freedom in the management of power flows and voltages in excess and deficit areas of the electric network. The main objectives of the FACTS technology application are studied: increasing the transmission line capacity to the thermal limit; optimizing power flows in a complex heterogeneous network; increasing the static and dynamic stability of the electric power system. To assess the action of the new generation of regulators of the power system, two alternative models of power flow in the electric power system are considered. In the first model, the concept of alternating series reactance is used as a state variable. In the second model, the characteristic of the advance angle is used, given in the form of a nonlinear dependence in the problem of calculating the power flow using the Newton-Raphson method. Conclusions are made on the presented models of power flow allowing to estimate possibilities of the serial capacitor with thyristor control TCSC (Thyristor Controlled Series Capacitor), as FACTS device, on improvement of modes of functioning of electric power system.
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含串联补偿器、晶闸管控制无功元件的电力系统潮流数学模型
提出了一种由串联到晶闸管控制电抗器的电容组组成的无功补偿器系统潮流的统一数学模型。事实(柔性交流输电系统-受控柔性直流输电)技术的应用表明,减少了电力系统(EPS)的受控和非受控运行模式之间的差距,为调度人员提供了额外的自由度来管理电网的过剩和亏缺区域的潮流和电压。研究了FACTS技术应用的主要目标:将输电线路容量提高到热极限;复杂异构网络的潮流优化提高电力系统的静态和动态稳定性。为了评估电力系统中新一代调节器的作用,考虑了电力系统中两种可供选择的潮流模型。在第一个模型中,交流串联电抗的概念被用作状态变量。在第二个模型中,利用超前角的特性,在用牛顿-拉夫森法计算潮流问题中以非线性依赖的形式给出。本文对所提出的功率流模型进行了总结,从而估计了晶闸管控制串联电容器作为FACTS器件在改善电力系统运行方式方面的可能性。
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