EE322 Power Systems

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Course Code Course Title Weekly Hours* ECTS Weekly Class Schedule
T P
EE322 Power Systems 3 2 6 Monday 11:00-12:50 Thursday 12:00-12:50
Prerequisite EE202 It is a prerequisite to
Lecturer Office Hours / Room / Phone

Currently not available

E-mail
Assistant Tarik Hrnjić Assistant E-mail thrnjic@ius.edu.ba
Course Objectives The course aims are to: - Introduce the students to basic power systems concepts like per unit, polyphase systems, transmission lines, transfromers, admittance, impedance and others. - Introduce the students to models of various power system components - Provide the students with hands-on skills in power system related calculations - Introduce the students to the transient and steady state analysis of transmission lines - Provide the students opportunities to write substantial, professional, technical reports and conclusions
Textbook Introduction to Power System Analysis. Dzafic and others, IUS 2013, ISBN-13: 978-9958-896-13-2
Learning Outcomes After successful  completion of the course, the student will be able to:
  1. Calculate various parameters related to power systems components' models.
  2. Model and analyse bus admittance and bus impedance.
  3. Perform power flow calculations.
  4. Model and analyse various fault types in power systems.
Teaching Methods Class discussions with examples. Active tutorial sessions for engaged learning and continuous feedback on progress. Team assigments. Team projects that involve real data, summary, interpretation and reporting
WEEK TOPIC REFERENCE
Week 1 Introduction and revision of circuit concepts 1.1, 1.2
Week 2 Real and reactive power in single and three-phase circuits; Complex power 1.3
Week 3 The ideal transformer, equivalent circuit of a transformer, three-phase transformers 3.2
Week 4 Per-unit impedances in transformer circuits, Three-phase synchronous machines 4.1
Week 5 Transmission lines 3.1, 2.1, 2.2
Week 6 Transmission lines 3.1, 2.1, 2.2
Week 7 Branch and node admittances, mutually coupled branches 4.1
Week 8 MIDTERM WEEK
Week 9 Bus admittance and impedance matrices 3.1
Week 10 Power flow analysis, solution of power flow equations 4.2, 4.3
Week 11 The Gauss-Seidel, The Newton-Raphson method, regulating transformers 4.3, 4.4, 4.5, 4.6
Week 12 The Gauss-Seidel, The Newton-Raphson method, regulating transformers 4.3, 4.4, 4.5, 4.6
Week 13 Faults in power systems 5.1, 5.2
Week 14 Faults in power systems 5.1, 5.2
Week 15 Review. Class notes
Assessment Methods and Criteria Evaluation Tool Quantity Weight Alignment with LOs
Final Exam 1 40 1,2,3,4
Semester Evaluation Compenents
Midterm exam 1 30 1,2
Term project and presentation 1 25 3,4
Homework project 1 5 1,2,3
***     ECTS Credit Calculation     ***
 Activity Hours Weeks Student Workload Hours Activity Hours Weeks Student Workload Hours
Lecture Hours 3 15 45 Home Study 2 15 30
Homeworks 5 1 5 Homeworks 5 1 5
Active Tutorials 2 10 20 Final exam study 15 1 15
Home Study 2 15 30 Home Study 2 15 30
        Total Workload Hours = 150
*T= Teaching, P= Practice ECTS Credit = 6
Course Academic Quality Assurance: Semester Student Survey Last Update Date: 04/03/2020
QR Code for https://ecampus.ius.edu.ba/course/ee202-electrical-circuits-ii

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