Course Name | Chinese | 电力系统动态分析 | |||||||||||
English | Power System Dynamic Analysis | ||||||||||||
Course Number | S016102 | Type of Degree | Ph. D | Master | √ | ||||||||
Total Credit Hours | 54 | In Class Credit Hours | 42 | Credit | 3 | Practice | Computer-using Hours | ||||||
Course Type | □Public Fundamental □Major Fundamental √ Major Compulsory □Major Elective | ||||||||||||
School (Department) | The,School of Electric Engineering | Term | Spring | ||||||||||
Examination | A.√Paper(√Open-book □Closed-book) B.□Oral C.□Paper-oral Combination D.□ Others | ||||||||||||
Chief Lecturer | Name | Wan Qiulan | Professional Title | professor | |||||||||
qlwan@seu.edu.cn | Website | ||||||||||||
Teaching Language used in Course | Chinese | Teaching Material Website | |||||||||||
Applicable Range of Discipline | The second class | Name of First-Class Discipline | electrical enginering and automatization | ||||||||||
Number of Experiment | Preliminary Courses | Steady State Analysis of Power System | |||||||||||
Teaching Books | Textbook Title | Author | Publisher | Year of Publication | Edition Number | ||||||||
Main Textbook | Theory and Analysis of Dynamic Power System | Ni Yixing | Tsinghua University Publishing House | 2002.5 | 1 | ||||||||
Main Reference Books | electric transient analysis of power system | Ma Daqiang | hydraulic and electric power publishing house | 1978 | 1 | ||||||||
I.Course Introduction (including teaching goals and requirements) :
II.Teaching Syllabus (including the content of chapters and sections. A sheet can be attached):
1.Introduction
2.the Mathematical Model of Power System
3.Steady-State Analysis of Power System with Multiple Generators
4.Low-frequency Oscillation of Power System
5.Transient Stability Analysis of Power system
6.Power System Dynamic Equivalence
III.Teaching Schedule:
Week | Course Content | Teaching Method |
1 | Introduction; §1.the Mathematical Model of Power System; §1.1summarize; §1.2 Synchronized Machine Models (1.2.1;11.2.2;1.2.3) | Lecture |
2 | §1.2.4Per-unit values of Synchronized Machines | Lecture |
3 | §1.2.5practical modles of Synchronized Machines; §1.3load models of power system | Lecture |
4 | §2.1Summarising Steady-State Analysis of Power System with Multiple Generators; §2.2 steady stability analysis with classical models of multi-generator power system; §2.3steady stability analysis of multi-generator power system with constant | Lecture |
5 | §2.4steady-stability analysis of multi-generator power system considering action of automatic excitation; | Lecture |
6 | §3.1introduction of of power system; §3.2.1Low-frequency Oscillation of One Machine Infinite Power System Model | Lecture |
7 | §3.2.2Low-frequency Oscillation of One Machine Infinite Power System Model using practical model of three orders ; §3.2.3 restrain Low-frequency Oscillation using PSS | Lecture |
8 | §3.3eigenvalue analysis method in Low-frequency Oscillation of multi-generator power system | Lecture |
9 | §3.4other methods to study Low-frequency Oscillation; | Lecture |
10 | §4.1introduction to the transient stability analysis in multi-generator system | Lecture |
11 | §4.2.1transient stability analysis by simulation in time domain; §4.2.2equations of nonlinear power system network; §4.2.3solve difference equations combinedwith network equations | Lecture |
12 | §5.1introduction to dynamic equivalence of power system; §5.2linear simulation discriminating coherent generator groups; §5.3basic theory of discriminating coherent generator groups using criterion | Lecture |
13 | §5.4Mode Equivalence Method; §5.5Estimate Equation Method | Lecture |
14 | summary of the each chapter | Lecture and discuss |
