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강의명
강의소
2024. Spring
[FE5306] Power system operation
Time
Mon. 09:00 / Wed. 09:00
Teacher Assistance
Course Description
The purpose of the course is to introduce students to the important terminal characteristics for thermal and hydroelectric power generation systems, mathematical optimization methods and apply them to practical operating problems, methods for solving complicated problems involving both economic analysis and network analysis and illustrate these techniques with relatively simple problems. The course mainly deals with econimic dispatch, unit commitment, optimal power flow, power system security, and state estimation.
2023. Spring
[ET6305 & EC6313] Renewable energy and microgrid (신재생에너지와 마이크로그리드)
Time
Mon. 10:30 / Wed. 10:30
Course Description
In this lecture, principles and characteristics of major renewable energies (photovoltaic and wind turbine) and other distributed energy resources (battery energy storage system, diesel generator, and loads) will be discussed in the perspective of electrical system. Microgrid, which is a small-scale power system and can be used to solve problems caused by renewable energy, will also be studied. Control of distributed energy resources and optimal energy management algorithm of microgrid are the main topics.
2022. Fall
[FE/EC4307] Electrical Power Distribution System Engineering (배전시스템공학)
Time
Tue. 10:30 / Thu. 10:30
Teacher Assistance
Course Description
This course includes topics on fundamentals of distribution systems, load characteristics, application of distribution transformers, lightning protections, and grounding regarding safety. Voltage regulation, distribution system protection, reliability, and electric power quality topics are also included. Numerous new topics, examples, and problems are handled to understand relavant topics.
2022. Fall
[FE/ET7304] Power System Stability and Control
Time
Mon. 10:30 / Wed. 10:30
Teacher Assistance
Course Description
The objective of this course is to introduce the basic concepts of power system stability and control which are very important issues in power system operation. In the first half of lecture, we will learn about the equipment characteristics and modelling which are essential for the understanding of power system. In the latter half, we will learn about active and reactive power control(AGC, AVR, etc), small-signal stability, transient stability, voltage stability, and subsynchronous oscillations. Methods of improving stability will also be studied briefly.
2022. Spring
[FE5306] Power System Operation
Time
Tue. 10:30 / Thu. 10:30
Teacher Assistance
Course Description
The purpose of the course is to introduce students to the important terminal characteristics for thermal and hydroelectric power generation systems, mathematical optimization methods and apply them to practical operating problems, methods for solving complicated problems involving both economic analysis and network analysis and illustrate these techniques with relatively simple problems. The course mainly deals with econimic dispatch, unit commitment, optimal power flow, power system security, and state estimation.
2022. Spring
[FE/EC4306] Power Systems Analysis
Time
Mon. 10:30 / Wed. 10:30
Teacher Assistance
조우영 <chowooyoung@gm.gist.ac.kr>
Course Description
This course provides students with an introduction to the basic concepts of power systems. Basic features of electric power systems including phasors, complex power, and three-phase circuits are presented in the first place of the course. To offer students with the capability of transmission system analysis, the key knowledge about power transformer, transmission line parameters, and power flow analysis are provided in the course. The fundamental economic operation of power systems is illustrated in terms of minimizing fuel cost of generation systems. Physical aspects of power systems are primarily highlighted while giving attention to mathematical techniques in the course. Both theory and modeling are developed from simple beginnings so that they can be readily extended to new and complex situations.
2021. Fall
[FE4307] Electrical Power Distribution System Engineering (배전시스템공학)
Time
Tue. 14:30 / Thu. 14:30
Course Description
This course includes topics on fundamentals of distribution systems, load characteristics, application of distribution transformers, lightning protections, and grounding regarding safety. Voltage regulation, distribution system protection, reliability, and electric power quality topics are also included. Numerous new topics, examples, and problems are handled to understand relavant topics.
2021. Spring
[FE4306 & EC4306] Power Systems Analysis (전력시스템공학)
Time
Tue. 14:30 / Thu. 14:30
Course Description
This course provides students with an introduction to the basic concepts of power systems. Basic features of electric power systems including phasor, complex power, and three-phase circuits are presented in the first place of the course. To offer students with the capability of transmission system analysis, the key knowledge about power transformer, transmission line parameters, and power flow analysis are provided in the course. The fundamental economic operation of power systems is illustrated in terms of minimizing fuel cost of generation systems. Fault analysis and brief introduction to distribution system are also studied in this course.
2021. Spring
[FE5104] Project for Energy Convergence I (에너지융합프로젝트 I)
Time
Thu. 17:30 / Fri. 13:00
Course Description
The aim of this course is to help students conducting a project associated with practical issues from industry. The students can get experiences of planning, developing, and managing an industry-related project. Basically, each project will be conducted by students themselves while their process is periodically checked by the instructor.
2020. Fall
[ET6305 & EC6313] Renewable energy and microgrid (신재생에너지와 마이크로그리드)
Time
Tue. 14:30 / Thu. 14:30
Course Description
In this lecture, principles and characteristics of major renewable energies (photovoltaic and wind turbine) and other distributed energy resources (battery energy storage system, diesel generator, and loads) will be discussed in the perspective of electrical system. Microgrid, which is a small-scale power system and can be used to solve problems caused by renewable energy, will also be studied. Control of distributed energy resources and optimal energy management algorithm of microgrid are the main topics.
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