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Power System Planning and Operation Program Course Title Course Code Degree Program Module Name Module Number Course Instructor

Contact hour per week Contact Days ( time and room) Target Group Year/Semester Prerequisites Status of the course

Course Description

Course Objectives

Department of Electrical & Electronics Engineering Regular Power System Planning and Operation ECE 4251 B.Sc. in Electrical Engineering Power Engineering II 25 Dr. GopiKrishna Pasam, Ph.D, M.Tech, B.Tech, MIE, MISTE 17 Years of Teaching Experience 5 Tuesday ( 8.30 am – 10.30 am), Wednesday ( 10.30 am – 1.00 pm), IV Year IV/II EEEg4221: Power Systems Compulsory The course power system planning and operation having the following chapters: Chapter-1: Load forecasting Chapter-2: Planning and design Chapter-3: Generation system cost analysis Chapter-4: Power system operation Chapter-5: Optimization and security  The course aims to introduce students to the fundamentals of power system planning and operation.  The students will have a sound understanding of fundamentals of load forecasting techniques.  The students will be able to learn and understand basics design concepts of generating stations, switchyards, and transmission lines.  The students will have a sound understanding of calculation of transmission losses, economic load dispatch and optimal operation of power systems.  The students will be able to carry out cost analysis of generation systems.

Detailed Course Schedule: Week

Cont Hrs

Topic/Subtopic/Chapter

1-3

11+1

Load forecasting: Classification and characteristics of loads, Forecasting methodology; Energy forecasting; Demand forecasting; Peak demand forecasting

4-5

8

Planning and design: General layout and design of generating stations; Switchyard layout; Transmission system planning

6-7

8

8-11

11+1

Generation system cost analysis: Cost analysis; Production analysis and costing; Environmental cost. Power system operation: Operation of hydropower generator; Switchyard; Protection & communication system in power system; Characteristics of generating units; Transmission losses;

Reading Materials

Remar ks

12-14

8

Final Exam Date Teaching Methodology Assessment Methods

Course Policies

Literature

Representation of transmission losses by B-coefficient; Optimal operation of generators on a bus-bar; Optimal load dispatch including transmission losses; Interchange evaluation and power pool. Optimization and security: Formulation of the optimization problem; Conditions for minimization; Sensitivity of the objective function; Security assessment 2nd Week June 2018 Lectures, tutorials Continuous assessment………………………50% (Quiz-1: 10%, Mid:20%, Quiz-2:10%, Assignment: 10%) Final Exam……………….............................50%  All students are expected to abide by the code of conduct of students throughout this course.  Academic dishonesty, including cheating, fabrication, and plagiarism will not be tolerated.  Class activities will vary day to day, ranging from lectures to discussions. Students will be active participants in the course.  You are required to submit and present the assignments provided according to the time table indicated.  75% of class attendance is mandatory! Please try to be on time for class.  Active participation in class is essential and it will have its own value in your grade  Cell phones MUST be turned off before entering the class. Textbook: 1. R L Sullivan: Power System Planning, McGraw-Hill, New York, 1977. 2. Xifan Wang James McDonald: Modern Power System Planning, 2001. 3. References: 4. C.L. Wadhwa, Electrical Power Systems, New Age International Publishers, 2004. 5. Allen J. Wood and B.F. Wollenberg, Power Generation, Operation and Control, 2nd Edition, John Wiley, 1997. 6. W.D. Stevenson, Jr., Elements of Power System Analysis, 4th Edition, New York: McGraw-hill, 1982. 7. Gupta: Electrical Power 8. JurgenSchlabbach& Karl H: Power system Engineering 9. J. Arrillaga and C. P. Arnold: Computer Analysis Of Power Systems