通过PSS和STATCOM的合作,提高风电系统的暂态稳定性和动态响应

Khaled Kouider, A. Bekri, Int
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引用次数: 0

摘要

基于双馈感应发电机(DFIG)的风力发电厂的大规模集成对电力系统运行的稳定性提出了挑战。本文研究了一个改进的3机9总线西部系统协调委员会(WSCC)系统的瞬态稳定性和动态性能。该调查通过低阻抗传输线将DFIG风电场连接到第六条母线,并在所有自动电压调节器(AVR)上安装电力系统稳定器(PSS)。对该系统进行了三相故障模拟测试,包括和不包括电力系统稳定器和静态同步补偿器(STATCOM)装置。时域仿真表明,PSS-STATCOM控制改善了瞬态响应。在扰动之后,即使在最小风力穿透水平下,松弛母线的稳定时间也减少了50%,功率角下冲也减少了70%。潮流分析表明,协调控制器在60%的风穿透率下将电压保持在标称电压的0.5%以内,而负载母线上的电压在没有控制的情况下可能偏差高达15%。特征值分析表明,在大风注入下,PSS-STATCOM将临界振荡模式的阻尼比从近0%提高到30%以上。总之,目前的研究结果提供了重要证据,证明PSS和STATCOM的合作增强了整个运行范围内的动态电压调节、角度稳定性和阻尼,从而在可再生能源高度集成的系统中保持了安全运行。
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Enhancing transient stability and dynamic response of wind-penetrated power systems through PSS and STATCOM cooperation
The large-scale integration of doubly-fed induction generator (DFIG) based wind power plants poses stability challenges for power system operation. This study investigates the transient stability and dynamic performance of a modified 3-machine, 9-bus Western System Coordinating Council (WSCC) system. The investigation was conducted by connecting the DFIG wind farm to the sixth bus via a low-impedance transmission line and installing power system stabilizers (PSSs) on all automatic voltage regulators (AVRs). A three-phase fault simulation was carried out to test the system, with and without power system stabilizers and a static synchronous compensator (STATCOM) device. Time-domain simulations demonstrate improved transient response with PSS-STATCOM control. A 50% reduction in settling time and 70% decrease in power angle undershoots at the slack bus are achieved following disturbances, even at minimum wind penetration levels. Load flow analysis shows the coordinated controllers maintain voltages within 0.5% of nominal at 60% wind penetration, while voltages at load buses can deviate up to 15% without control. Eigenvalue analysis indicates the PSS-STATCOM boosts damping ratios of critical oscillatory modes from nearly 0% to over 30% under high wind injection. Together, the present findings provide significant evidence that PSS and STATCOM cooperation enhances dynamic voltage regulation, angle stability, and damping across operating ranges, thereby maintaining secure operation in systems with high renewable integration.
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来源期刊
CiteScore
4.50
自引率
16.00%
发文量
83
审稿时长
8 weeks
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