United International University (UIU) Dept. of Electrical and Electronic Engineering (EEE) Course Outline Course: EEE 203 Title: Energy Conversion I Fall 2014 Section C Instructor Work Address Email Website Counseling Hour Mohammad Wahiduzzaman Khan (MWK) Room # 1004, UIU Campus – 3 [email protected] / [email protected] wah333d.weebly.com As posted in the office. Credit Hour 3 Credit hours, 3 hours/week Classes Sunday and Tuesday, 12:450PM-2:05PM, Venue: GF1 Text Book Electric Machines: Theory, Operation, Applications, Adjustment, and Control, 2 nd Edition, Charles I. Hubert, Pearson Education, ISBN 0-13-061210-3 Alternating-Current Machines, 3rd Edition, A.F. Puchstein, T.C. Lloyd, A.G. Conrad, John Willey & Sons, ISBN 81-219-2199-6 Reference Homework Assignments will be given throughout the trimester and will be graded. Problems or questions in the homework may appear in the exam. There will be at least 3 assignments. Class Test There will be total 4 class tests. Each class test will be maximum 20 minutes long. The best 3 will be taken. Exams Mid-terms and final exams will be closed book, closed note. The syllabus for mid-terms and final exam will be informed in due time. Grading The course grade will be determined from a weighted average of the class tests, home work, midterm exams and the final. The weights are as follows: Attendance and Class Participation Homework and or Project Class Test Mid-term Exam Final Exam Course Grade The following scale will be used to convert numerical grades to letter grade: Letter Grade A AB+ B B- Course Objectives 5% 10% 15% 30% 40% Marks 90-100 86-89 82-85 78-81 74-77 Grade Point 4.0 3.67 3.3 3.0 2.67 Letter Grade C+ C CD+ D Marks 70-73 66-69 62-65 58-61 55-57 Grade Point 2.33 2.00 1.67 1.33 1.00 1. To introduce the students with fundamental concepts and principles of operation of various types of electrical machines. 2. To equip the students with basic experimental and modeling skills for handling problems associated with electrical machine. Class Schedule Lecture Topics 1 2 Introduction Fundamental Concept of Electromechanical Energy Conversion, Right Hand Rule, Faraday's Law, Lenz's Law, Flemings Rule, Generator Action, Motor Action Magnetic Field, Magneto motive Force, Magnetic Field Intensity, Magnetic Permeability, Hysteresis, Eddy Current, Transformer Principle Transformer Construction, Turns Ratio, Ideal Transformer, Real Transformer, Equivalent Circuit of Ideal Transformer & Real Transformer. Ideal & Real XFR on No Load, Ideal & Real XFR on load, Input Impedance of an Ideal XFR, Shifting Impedance of a XFR Exact Equivalent Circuit of a Loaded XFR, Simplified Equivalent Circuit of a Loaded XFR (Referred to H.S & L.S) Class Test 1 Per-Unit Values, Voltage Regulation, Voltage Regulation from Per-unit Value, Transformer Losses & Efficiency, Calculating Efficiency From Per-Unit Value Mathematical Problem Solving Mathematical Problem Solving Open Circuit Test , Short Circuit Test Class Test 2 Transformer Polarity & Standard Terminal Markings, Parallel Operation of XFRs, Load Division Between Transformer in Parallel Three Phase Transformers, Delta-Delta & V-V Bank, Instrument transformer, AutoTransformer Motor Principles, Rotating Magnetic Field Rotating Magnetic Field , Two Phase & Three Phase System , Review Class Mid Term Exam Induction Motor Construction, Slip Rotor Equivalent Circuit under Blocked Condition & Running Condition, Power Mathematical Problem Solving Per Phase Equivalent Circuit , Condition for Maximum Power Transfer, Torque Sleep Characteristics, Maximum Torque Class Test 3 Motor Torque, Motor Characteristics Tests of Induction Motor-DC Test , Blocked Rotor Test, No Load Test Mathematical Problem Solving Starting Methods of Induction Motor Breaking of Induction Motor, Speed Control Methods Class Test 4 Single Phase Induction Motor: Construction, Double Revolving Field Theory Single Phase Induction Motor: Starting methods, Equivalent Circuit Final Exam 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 Good Luck! Have a Wonderful Trimester.
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