Power Flow and Transient Stability Enhancement using Thyristor Controlled Series Compensation

Z. Anwar, T. Malik, Tahir Abbas
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引用次数: 3

Abstract

TL (Transmission Line) congestion is a key factor that affects the power system operational cost. In addition of renewable generation in National Grid of Pakistan, transmission line congestion are frequent. Consequently, the network in this particular region faces severe congestion and dynamic stability problems. It has been planned that renewable plants shaved to curtail some available generation to minimize this inevitable congestion. However, one of the cost-efficient solutions to this problem is series compensation of lines using TCSC (Thyristor Controlled Series Compensation). It significantly increases the transfer capability of existing power transmission and enhances the dynamic stability of system at a lower cost, and has shorter installation time as compared to the construction of new TLs. This paper deals with the dynamic modeling of a TCSC in the NTDC (National Transmission and Dispatch Company) network with its applications to alleviate congestion during fault conditions. This study has been carried out using simulation software PSS/E (Power System Simulator for Engineers) which does not have a predefined dynamic model for TCSC, this leads to the necessity of creating a user defined model. The model of TCSC has been programmed in FORTRAN and compiled along with existing dynamic models of network components. The results indicate that power flow and dynamic stability of network is enhanced
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利用晶闸管控制串联补偿增强功率流和暂态稳定性
输电线路拥塞是影响电力系统运行成本的关键因素。巴基斯坦国家电网除可再生能源发电外,输电线路拥堵频发。因此,这一特定区域的网络面临着严重的拥塞和动态稳定性问题。按照计划,可再生能源发电厂将减少一些可用发电量,以尽量减少不可避免的拥堵。然而,解决这个问题的一种经济有效的方法是使用晶闸管控制串联补偿(TCSC)对线路进行串联补偿。它以较低的成本显著提高了现有输电系统的传输能力,增强了系统的动态稳定性,并且与新建输电系统相比,它的安装时间更短。本文研究了NTDC(国家输配电公司)网络中TCSC的动态建模及其在故障情况下缓解拥塞的应用。本研究是使用仿真软件PSS/E(工程师电力系统模拟器)进行的,该软件没有为TCSC预定义的动态模型,这导致创建用户定义模型的必要性。用FORTRAN语言编写了TCSC模型,并与已有的网络组件动态模型进行了编译。结果表明,该方法增强了电网的潮流和动态稳定性
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