同步发电机励磁自动控制系统设计摘 要随着电力行业不断进展和机组单机容量的增大,对机组的要求是越来越高,不仅仅是机组的可用率、运行效率和安全性,对机组的可靠性与经济性也提出了更高的要求。励磁系统作为发电机的核心控制系统,它的运行状态直接影响发电机运行可靠性与经济性。因此,保证励磁系统安全、可靠的工作是十分重要的。对励磁系统进行状态监测与诊断不仅能够提高设备维护的经济性,还能显著提高系统的可靠性。在本论文中,通过分析了同步发电机励磁系统的工作原理,运用飞升曲线法建立了励磁控制系统的动态数学模型,运用工程设计法设计出闭环控制系统的调节器。组建了同步发电机励磁自动控制系统,完成系统调试。实验结果表明该数学模型和控制算法是合理的。然后分析了同步发电机自励励磁系统的不足,提出一种新型斩波控制励磁系统。分析了这种系统的工作原理,建立了各个环节的数学模型,利用工程设计法设计出相应的调节器,根据反馈控制原理组建了自励自动控制系统。仿真结果证明了本文提出控制方案的可行性,为励磁改造和优化提供了一定的理论指导意义。关键词:同步发电机;飞升曲线法;工程设计法Design of automatic control system for synchronous generator excitationAbstractWith the power industry will continue to development and unit capacity increasing, the requirement of the unit is more and more high. Not only is the unit availability, operation efficiency and safety of, also put forward higher requirements on the unit reliability and economy. As the core control system of generator, the operation state of the excitation system directly influences the reliability and the economy of generator.Therefore, it is very important to guarantee the safety and reliability of the excitation system.. The state monitoring and diagnosis of excitation system can not only improve the economic performance of the maintenance, but also improve the reliability of the system.In this paper, through the analysis of the working principle of the excitation system of synchronous generator, using upwards curve method to...
