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首页> 外文会议>TENCON 2008 - 2008 IEEE Region 10 Conference >MOEP based design of PSS and FACTS for transient stability improvement under symmetrical and unsymmetrical fault conditions
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MOEP based design of PSS and FACTS for transient stability improvement under symmetrical and unsymmetrical fault conditions

机译:基于MOEP的PSS和FACTS设计,用于在对称和非对称故障条件下改善暂态稳定性

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A Multi-Objective Evolutionary Programming (MOEP) based approach to Static Synchronous Series Compensator (SSSC) has been presented in this paper. The multi-objective optimization problem is formulated to the design problem of SSSC, in which the system transient stability is improved by minimizing several system behavior measure criterions. Then, MOEP is used to design the Flexible Alternating Current Transmission Systems (FACTS) controller parameters. The usefulness of the proposed control scheme was demonstrated with a three machine nine bus power system under different fault conditions. The nonlinear simulation results show the effectiveness of the proposed method to damp out the rotor oscillations and enhance greatly the system stability over a wide range of system configurations. By minimizing the time-domain based multi objective function, in which the deviations in the oscillatory rotor angle, rotor speed and accelerating power of the generator are involved, stability performance of the system is greatly improved. The proposed method is an effective one for the tuning of multi-controllers in large power systems.
机译:本文提出了一种基于多目标进化规划(MOEP)的静态同步串联补偿器(SSSC)方法。针对SSSC的设计问题提出了多目标优化问题,其中通过最小化几种系统行为度量标准来提高系统暂态稳定性。然后,MOEP用于设计柔性交流输电系统(FACTS)控制器参数。提出的控制方案的实用性在不同故障条件下的三机九总线电力系统中得到了证明。非线性仿真结果表明,该方法可有效抑制转子振荡,并在很大范围的系统配置中大大提高系统稳定性。通过最小化基于时域的多目标函数,该函数包含了发电机的振荡转子角,转子速度和加速功率的偏差,大大提高了系统的稳定性能。所提出的方法对于大功率系统中的多控制器调整是一种有效的方法。

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