جامعة القصيم – كلية الهندسة EE 482 Design of Electrical Protection Systems Course First Day Material Semester No. 362 1436/1437 Prepared by: Prof. Dr. Mirza Ansar Beg TABLE OF CONTENTS Subject I. Course Identification and General Information ..................................................... II. Course Objectives ..................................................................................................... III. Course Learning Outcomes ..................................................................................... IV. Course Schedule V. Course Materials ....................................................................................................... VI. Course Instructor...................................................................................................... EE 482: Course First Day Material I. Page 2 of 4 Course Identification and General Information 1 Title and code Design Of Electrical Protection Systems EE 482 2 Program(s) on which the course is given Electrical Engineering 3 Level of programs: Level 10 4 Prerequisite EE 340 5 Credit hours (Theoretical, Tutorial, practical) 3 (3, 1, 0) 6 Course Instructor: Prof. Dr. MirzaAnsar Beg 7- Catalog Description Protection system components: Objectives, system components, requirements, protection zones, main and backup protection; Protection Instrument transformers (CT, VT & CVT): Types, construction, equivalent circuit, ratio error, burden, accuracy classes; Protective Relays: Types (electromechanical, solid state, digital, numerical), function classifications, merits & demerits, IED; Circuit Breakers: Introduction, Types (air, vacuum, oil, SF6), principle of operation, applications, merits and demerits, during fault behavior, rapture, capacity; Transmission Line Protection and Design: Overcurrent protection schemes, distance protection schemes, power line carrier protection (PLC), case study (design of a TL protection scheme); Generator Protection and Design: Stator protection schemes, rotor protection schemes, case study (design of a generator protection scheme); Transformer Protection and Design: Overcurrent protection, restricted earth fault, differential, Buchholz, case study (design of a transformer protection scheme). 8- Student Performance Assessment Methods Method of assessment Percentage of total 04 % 1 Attendance 2 Quizzes 10 % 3 Homework and Reports 08 % 4 Two Mid Term Exams 2×15 %=30 % 5 Final Exam 50 % Total (Note: 2% Bonus are given to students who attend more than 95% of classes) 102 % 9- Text Books and References Text Books Y.G. Paithanker, “Transmission Network Protection”Marcel Dekker Inc.1998 Badri Ram, “ Power system protection and switchgear”, Tata McGraw-Hill Course Notes Will be distributed by the teacherr and notes taken by the student inside class-room Semester No. 362– 1436/1437 EE 482: Course First Day Material References II. Page 3 of 4 Recommended Books: - Walter Elmore “Protective Relaying: Theory and Applications”, Marcel Dekker - Blackburn “Protective Relaying: Principles and Applications”, Marcel Dekker - S. Rao, “Switchgear protection and power systems”, 11-edition, Khanna Publishers - Periodicals, IEEE power engineering society concerned periodicals - - Electronic Books & Web Sites: wikipedia, the free encyclopedia Course Objectives The objectives are to a. Be acquainted with the main components of a protection system and its requirements. b. Understand the protective instrument transformers (CT, VT & CVT). c. Learn the fault calculation problem. d. Be able to configure the CB ratings in a power system. e. Understand the different types of relays and merits and demerits of each type. f. Understand the methodology of overcurrent and distance protection schemes. g. Be able to design a protection scheme for a power system (including generator, transformer, TL, bus, etc..). Course Learning Outcomes Students who successfully complete the course will demonstrate the following outcomes: 1. Understanding of the basic components of a protection and the main function of each. 2. Understanding of the main type of the protective relays, the merits and demerits of each type. 3. Understanding of the main types of CB’s and the preferred application for each type. 4. Understanding of the overcurrent and the distance protection schemes. 5. Understanding of the structure of the protection scheme for a power system. 6. Ability to solve and analyze faults in a real power system. 7. Ability to think creatively for the requirements of given power system protection scheme. 8. Ability to apply skills when the protection scheme of a given power system is required. Semester No. 362– 1436/1437 EE 482: Course First Day Material III. Page 4 of 4 Course Schedule 1st Protection system components & requirements 2nd 3rd 4th 5th 6th 7th 8th 9th 10th 11th 12th 13th 14th 15th Fault calculations Protective instrument transformers Protective relays: types, merits and demerits Protective relays: types, merits and demerits Introduction to CB’s: types, merits and demerits CB’s: types, merits and demerits Overcurrent protection schemes Overcurrent protection schemes Distance protection schemes Protection of generator Protection of transformer Protection of transmission line Protection of distribution feeder Station layout & disturbance monitoring. IV. Course Material Most of the documents used in EE 482 including this first day material, course notes, sheets and assignments are available for downloading from the following web site: http://qec.edu.sa/eng/students/lectures/lectureres.asp You will need to print all sheets, assignments and course notes that are used in the course. Mostly no hard copies of this course material will be handed to the students. V. Course Instructor 1 Personal Data Prof. Dr. MirzaAnsar Beg B1S033, Ext. 5106 ansarbeg@qec.edu.sa Name Office e-mail Mobile 2 Academic Degrees Degree PhD M.E. B.E. Major Electrical Engineering Electrical Engineering Electrical Engineering Institute S.G.B.Amravati University India S.G.B.Amravati University India S.G.B.Amravati University India Semester No. 362– 1436/1437 Date 2012 1999 1988