Electric Power System and Automation

 

Graduate Program for Specialty in Electrical Power System and Automation
 
Discipline name: Electric Power System and Automation     Discipline code: 080802
Degree authorization category: Engineering
I. Subject Introduction
The discipline of Electric Power System and Automation was set up relying on the Leading Academic Discipline Project of Shanghai Education Commission. There are 3 professors. The objects of specialty research are power systems, which include shipboard power systems, port power systems and distributed electric power systems. Research contents include: power system control and reliability, power system optimization and energy intelligent scheduling, smart grid, distributed power systems and interconnect technology, all electric ship power system stability and control.    
This discipline has Shanghai Maritime University - Schneider Electric Joint Laboratory (shipboard power system lab) to carry out teaching and research works for shipboard power systems and automation. The marine power distribution control panel in the laboratory was designed independently which meets maritime industrial standards. There are three Dongfeng-Cummins diesel prime motor and Marathon generator units, tunable electrical load of Resistance-Inductance, various types of electrical parameter detection and analytical instruments, mathematical analysis software and electric system design and simulation software. This discipline has some invention patent, such as: “A kind of shipboard automatic electric power station development platform”. Potential graduates of this discipline could work in shipboard or port power systems design and control. Parts of the graduates further their study to the program of doctor’s degree of electric engineering.
II. Training Objective
Potential graduates are trained to have a solid foundation in basic theory and systematic knowledge of the subject; to understand the situation and developing trend of electric power system and automation, especially in the field of shipboard power system; to have the ability to engaged in scientific research or specialized technical work independently; to master a foreign language, proficiency in the field of the subject to read foreign materials, and has basic listening and writing skills in foreign language.
III. Main Research Direction
Research Direction Title
Main Research Content
Graduate Student Tutors
Power system Control and reliability
Modeling and control of power system, especially of the marine and port power system; application of power electronics, electric drive technology in power system.
Shi Weifeng,
Wang Xihuai,
Xiao Jianmei,
Huang Jianzhong,
Zhang Yan,
Li Cuiling, etc
Power system optimization and energy intelligent scheduling
Optimization and scheduling theory and methods of power system; application of intelligent technology in power system.
Distributed power systems and interconnect technology
Smart grid; control, interconnect technology, safe and reliable control and power quality monitoring of independent power systems / distributed power system.
All-electric ship power system stability and control
Zonal distribution integrated shipboard power system stability and control; integrated medium voltage DC shipboard power systems; electrical reconfigurable shipboard power system.
IV. Curriculum Setting
Classification
Courses Title
Hours
Credits
Sem.
School
Teacher
Preparing teachers
Public degree courses
(Required 8 credits)
Chinese Traditional Culture
36
2
first
 
 
 
Modern Chinese Culture
36
2
first
 
 
 
Chinese
144
4
first
second
 
 
 
Degree obligatory basic courses
(Required 9 credits)
Numerical Analysis
54
3
2
College of Art and Sciences
 
 
Matrix Theory
36
2
1
College of Art and Sciences
 
 
Nonlinear Control System
36
2
2
Logistics Engineering College
He Junji
Zhang Yan
Optimal Control
36
2
1
Logistics Engineering College
Wang Xihuai
 
Specialty degree courses (Required 8 credits)
Modern Electric Power System Analysis
36
2
1
Logistics Engineering College
Li Cuiling
 
Analysis and Design of AC Motor
36
2
2
Logistics Engineering College
Wang Bulai
 
Electric Power System Modeling and Control
36
2
2
Logistics Engineering College
Shi Weifeng
 
System Identification and Adaptive Control
36
2
2
Logistics Engineering College
Zhang Yan
 
Specialty optional courses
(Required 6-8 credits)
Basic Principles and Applications of DSP
36
2
2
Logistics Engineering College
Guo Yi
Yu Dan
Electromagnetic Measurement Technique
36
2
2
Logistics Engineering College
Xu Xiaoyan
He Min
Modern Power Supply Technology
36
2
2
Logistics Engineering College
Liu Yijian
Han Jingang
EMC Technology
36
2
2
Logistics Engineering College
Yao Gang
 
Modern Circuit Theory and Analysis
36
2
2
Logistics Engineering College
Xue Shilong
 
Fault Diagnosis and Tolerant Control of Control System
36
2
2
Logistics Engineering College
Shi Weifeng
Yu Dan
Motor and Electric Drive System Simulation
36
2
1
Logistics Engineering College
Xie Wei
Wang Bulai
Appending courses
(2 courses, non-counted credits)
They are chose by tutor on the basis of graduate student specific reality.
Other required aspects
(non-counted credits)
Academic activity and symposium
8 times
1
 
Tutor
 
Literature reading and review
 
1,2
 
Tutor
 
Practice link
60
2
 
Tutor
 
Middle assessment
Third term.
Research requirement
Participate in scientific research of instructor of the subject.
Degree thesis
Third and fourth term.
Other requirement
Study hard and earnest work attitude
Annotation:Graduate students must obtain 30 credits and complete the total contents of other required aspects in cultivation plan and then thesis defense could be applied after finishing thesis.
 
Scheme editor:Shi Weifeng     Dean of college:Zheng Su  President of subcommittee:Tang Tianhao
 
V. Main Bibliography and Magazines of Document Reading of the Subject
Serial number
Bibliography and magazines title
Author and publishing units
Remarks
1
Automation of Electrical Power Systems
China Electric Power Research Institute
 
2
Proceedings of the Chinese Society of Universities for Electric Power System and Automation
Tianjin University
 
3
Proceedings of the Chinese Society for Electrical Engineering
Chinese Society for Electrical Engineering
 
4
Electric Power Automation Equipment
Nanjing Institute of Electric Power Automation
 
5
Transactions of China Electrotechnical Society
China Electrotechnical Society
 
6
Power System Technology
Chinese Society for Electrical Engineering
 
7
Electric Machines and Control
Harbin University of Science and Technology
 
8
Electric Power
Chinese Society for Electrical Engineering
 
9
Power System Protection and Control
Xuchang Institute Relay Research
 
10
Electric Drive
Tianjin Design and Research Institute of Electric Drive, Chinese Automation Congress
 
11
East China Electric Power
East China Electric Power Test and Research Institute
 
12
Control and Decision
Chinese Automation Congress
 
13
Control Theory and Applications
South China University of Technology
 
14
Journal of System Simulation
Chinese Association for System Simulation
 
15
Control Engineering of China
Chinese Automation Congress
 
16
Journal of Transducer Technology
Ministry of Information Industry 49th Institute of Electronic
 
17
Electric Power Systems Research
ELSEVIER
 
18
IEEE Trans. Power Systems
IEEE
 
19
IEEE Trans. Instrumentation and Measurement
IEEE
 
20
IEEE Trans. Energy Conversion
IEEE
 
21
IEEE Trans. Industrial Electronics
IEEE
 
22
IEEE Trans. Power Delivery
IEEE
 
23
Energy Conversion and Management
ELSEVIER
 
24
Marine Electric and Electronic Engineering
Chinese Society of Naval Architects and Marine Engineers
 
25
High Voltage Engineering
Wuhan High Voltage Research Institute of State Power Corporation
 
26
Shipboard Power System Modeling and Control
Publishing House of Electronics Industry, Shi Weifeng, Xu Xiaoyan
 
27
Power System Stability and Control
China Electric Power Press, Prabha Kundur
 
28
Stability of Power System and Generator Excitation Control
China Electric Power Press, Liu Qu
 
29
Power System Voltage Stability and Control
China Electric Power Press, Zhou Shuangxi etc
 
30
Theory and Analysis of Dynamic Power System
Tsinghua University Press, Ni Yixin etc
 
Illumination
Document reading:
Based on the research direction of the subjects, the tutor’s research and theme of the paper, the graduates should read a certain amount of documents to master the research foreland of the subject’s development.
VI. Training the Practical Ability of the Subject Graduate Students
According to tutor’s material case of teaching and research, you can choose from the following:
1. Arrange the teaching assistant work in one semester, or participate in key subject of experimental research bases work;
2. You can take part in the supervisor’s industry-university-research item, according to the characteristics of students and thesis research projects;
3. Establish joint training system with some related enterprises and encourage students to participate in the production practice.