Course Name | Chinese | 电力系统稳态分析 | |||||||||||
English | Steady state Analysis of Power System | ||||||||||||
Course Number | S016101 | Type of Degree | Ph. D | Master | √ | ||||||||
Total Credit Hours | 54 | In Class Credit Hours | 48 | Credit | 3 | Practice | Computer-using Hours | ||||||
Course Type | □Public Fundamental □ Major Fundamental √Major Compulsory □Major Elective | ||||||||||||
School (Department) | School of Electric Engineering | Term | Autumn | ||||||||||
Examination | A.√Paper(□Open-book √Closed-book) B.□Oral C.□Paper-oral Combination D.√ Others research report | ||||||||||||
Chief Lecturer | Name | Gao Shan、Xu Qingshan | Professional Title | Associate professor | |||||||||
Shangao@seu.edu.cn | Website | ||||||||||||
Teaching Language used in Course | Chinese/ | Teaching Material Website | |||||||||||
Applicable Range of Discipline | Name of First-Class Discipline | ||||||||||||
Number of Experiment | Preliminary Courses | ||||||||||||
Teaching Books | Textbook Title | Author | Publisher | Year of Publication | Edition Number | ||||||||
Main Textbook | Power System Analsis | Zhu Junwei | Hydro Power Press | 1995 | |||||||||
Modren Times Power System Analsis | Wang Xifan | Science Press | 2003 | ||||||||||
Main Reference Books | Steady state Analysis of Power System | Chen Heng | Hydro Power Press | 2007 | 3 | ||||||||
Power System Steady State Security Analysis | Wu Jishun | Shang hai JiaoTong University Press | 1985 | ||||||||||
Advanced Power Network Analysis | Zhang BoMing/Chen ShouSun | Tsinghua University Press | 1996 | ||||||||||
Power System State Estimation | Yu ErKeng | Hydro Power Press | 1985 | ||||||||||
I.Course Introduction (including teaching goals and requirements) within 300 words:
Deepen and expand the relevant content about power system analysis in the undergraduate courses. Introduce various kinds of new models and relevant algorithms. Combining the developmet trend using computer to supervise and manage power system, introduce new research fields and relevant research approaches.
After study this course, students can master teaching models and research technique of several principal problems in power system steady state analysis, find out about the new achievement and developing direction about the subject and have ability of scientific research to carry on relevant actual subject.
II.Teaching Syllabus (including the content of chapters and sections. A sheet can be attached):
Chapter One: Power Flow Caculation
Summary,Mathmatic Models for Power Flow Problems,Geuss-Seidal Method,Newton-Raphson Method, Fast Decoupled Load Flow, Load Flow Method Retaining Nonlinearity, Load Flow with Minimization Technique, Optimal Power Flow,Several Load Flow Caculations with Special Features.
Chapter Two: Power System State Estimation
Summary, Attribute and Observability of Power System Operating State, Least-Squares Estimation and Its Improvement,Bad Data Detection, Bad Data Identification, Brief Intrduction about Power System State Estimation by Nonquadratic Criterion
Chapter Three: Power System Static Security Analysis
Summary: Power Static Equivalent, Branch Break Simulation,Generator Outage Simulation,Automatic Contingency Selection
Chapter Four: Energy Management Systems
Functions, structure and development of Energy Management Systems (EMS) and Distribution Management Systems (DMS)
III.Teaching Schedule:
Week | Course Content | Teaching Method |
1 | Chapter One :Power Flow Caculation Summary, Mathmatic Model, Basic Motheds(Geuss-Seidal Method, Newton-Raphson Method) | Teaching |
2 | Geuss Elimination Method Triangular Factorization Factor Table Method | Teaching |
3 | Gaussian Elimination by Column Nodes Optimal Order and Its Application | Teaching |
4 | Sparse Matrix Technology——Storage without Zero element, Caculation without Zero element Spare Vector Methods | Teaching |
5 | Fast Decoupled Load Flow Load Flow Method Retaining Nonlinearity | Teaching |
6 | Load Flow with Minimization Technique | Teaching |
7 | Automatic Adjustment in Power Flow Caculation | Teaching |
8 | Optimal Power Flow Reduced Gradient Method Decoupled Optimal Power Flow | Teaching |
9 | Chapter Two: Power System State Estimation Summary(Fuction, Basic Conception), Least Square Method | Teaching |
10 | Bad Data Detection and Indentification Conservative Estimation Method | Teaching |
11 | Chapter Three: Power System Static Security Analysis Summary,Ward Equivalents | Teaching |
12 | REI Equivalents Basic Nodes and Basic Branches | Teaching |
13 | Branch Break Simulation(DC Methods, Conpensation Methods) | Teaching |
14 | Generator Outage Simulation Automatic Contingency Selection | Teaching |
15 | Chapter Four: Energy Management Systems Functions and structure of Energy Management Systems (EMS) and Distribution Management Systems (DMS) | Teaching |
16 | Development of Energy Management Systems (EMS) and Distribution Management Systems (DMS) | discussion |
