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作 者:吕世荣[1] 刘晓鹏[1] 郭强[1] 夏道止[1]
机构地区:[1]西安交通大学电气工程学院
出 处:《电力系统自动化》1999年第12期16-20,共5页Automation of Electric Power Systems
摘 要:经推理证明,对于采用固定串联电容补偿的电力系统,如果对发电机转子角度施加一微小正弦扰动,则按系统线性化方程求得的电磁转矩稳态增量的正弦和余弦分量的幅值分别与电气弹性系数和电气阻尼系数成正比,从而提出了一种计算复转矩系数的微小扰动稳态响应算法。然后将这种算法推广到采用晶闸管控制的串联电容补偿电力系统的次同步谐振分析中,给出了具体的计算公式和步骤。采用IEEE典型系统进行计算,所得结果与采用EMTP时域仿真的结果相吻合。First, in power systems with fixed series capacitor, a small signal disturbance steady-state response method is developed to calculate the complex torque coefficients for the analysis of subsynchronous resonance(SSR). Theoretical reasoning has shown that , for the linearized system, the electrical torque increments due to a small sinusoidal wave disturbance on the rotor angle can be decomposed into the sinusoidal and cosinoidal parts, the magnitudes of which are respectively in proportion to the electrical spring coefficient and damping coefficient. Then, the novel approach is extended to the SSR analysis of power systems with thyristor controlled series capacitor (TCSC). The formulas and computation steps are given in detail. Simulations on IEEE first benchmark system are consistent with the results of EMTP.
分 类 号:TM712[电气工程—电力系统及自动化]
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