Learn the fundamental principles and advanced concepts of power system analysis in this comprehensive course covering essential topics from basic parameters to complex fault calculations. Master power flow analysis, system stability, power balance mechanisms, and economic operation principles while exploring synchronous generator equations, transient analysis, and sequence impedance networks. Develop practical skills in analyzing symmetrical and asymmetrical faults, calculating short circuits, and understanding three-phase power systems through hands-on calculations and real-world applications. Gain expertise in voltage management, frequency control, automatic speed regulation, and power loss reduction strategies essential for modern electrical power engineering.
Overview
Syllabus
- 一、电力系统的基本概念
- 二、电力系统的参数与模型
- 2.1输电线路的参数
- 2.2变压器的参数与模型
- 2.3标幺值
- 三、电力系统潮流计算
- 3.1潮流计算基本概念
- 3.2开式网络计算
- 3.3简单闭式网络计算
- 四、电力系统功率平衡
- 4.1电力系统的频率调整
- 4.2自动调速系统
- 4.3电力系统有功功率平衡
- 4.4电力系统的电压管理
- 五、电力系统的经济运行
- 5.1电力系统的负荷与负荷曲线
- 5.2等微增率准则
- 5.3降低电力网电能损耗的措施
- 六、电力系统暂态分析概述
- 七、同步发电机的基本方程
- 7.1同步发电机的原始方程
- 7.2派克变换
- 八、电力系统三相短路的暂态过程与实用计算
- 8.1短路的基本概念
- 8.2无限大功率电源供电系统暂态分析
- 8.3转移阻抗
- 九、电力系统各元件的序阻抗和等值电路
- 9.1对称分量法
- 9.2同步发电机的负序和零序电抗
- 9.3异步发电机的负序和零序电抗
- 9.4变压器的零序电抗
- 9.5电力系统的序网络
- 十、电力系统简单不对称故障的分析和计算
- 10.1单相接地短路
- 10.2两相短路与两相短路接地
- 10.3不对称短路计算
- 10.4正序等效定则的应用
- 10.5非故障处电流和电压的计算
- 10.6非全相运行的分析计算
Taught by
Fu Chao
