Course Profile

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Department of EEE Faculty of Engineering

Course Profile

I. Course Code: EEE 333

II. Course Title: Power System Analysis

III. Credit: 3 IV. Pre-

Requisite:

EEE 318, EEE 325 V. Contact

Hours: Lecture- 3 hours/week VI. Course Objectives:

The objectives of this course are

a. To develop the concept of Inductance and Capacitance of Transmission Lines.

b. To represent the elements of a power system including generators, transmission lines, and transformers.

c. To formation of Ybus & Zbus.

d. To solve power flow problems by application of the Gauss-Seidal methods and Newton method.

e. To analyse a network under both balanced and unbalanced fault conditions and interpret the results.

f. To develop the knowledge of power system stability involving two machine systems.

VII. Course Outcome (COs):

Sl. No.

COs

(Upon successful completion of this course, students

should be able to)

CorrespondingPOs

Bloom’s taxonomy domain/leve

l*

Delivery Methods

&

activities

Assessmen t tools

C A P

CO 333- 1

Demonstrate the basics of Power System, inductance and capacitance & Analyze per unit quantities.

PO1

2,4 - - Lectures, Tutorials

CT1 Mid-term Exam CO 333-

2

Develop the knowledge of power system using bus impedance matrix and load flow analysis.

PO2

3 - - Lectures, Tutorials

CT2 Mid-term Exam

©Daffodil International University

Semester: Summer Year: 2021

Level/Term: 3-1,3-2,3-3,2-2,2-3

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CO 333- 3

Analyze different problems

using symmetrical

components Transformation, symmetrical faults and unsymmetrical faults.

PO2

CT3

Final Exam

CO 333- 4

Evaluate the concept of steady state and transient stability.

PO2

CT4

Final Exam

* C: Cognitive, P: Psychomotor; A: Affective

VIII. Course Plan with Detail Description:

Session Contents COs

Week 1 ^ Overview of power systems engineering & Modeling &

representation of the system components used in power system. 1 Week 2 ^ The concept of Inductance & capacitance of Transmission Lines. 1 Week 3 ^ Per unit quantities, change of base, Power system modelling. 1

Week 4  Bus admittance matrix. 2

Week 5 ^ Types of buses, formation of power flow equations using Ybus matrix

& Power flow studies – Gauss-Seidel 2

Week 6 ^ Introduction of balanced fault. 3

Week 7 ^ Analysis of power system using symmetrical components

transformation. 3

Week 8  Symmetrical fault analysis 3

Week 9  Unsymmetrical fault analysis. 3

Week 10  Unsymmetrical fault analysis (Math). 3

Week 11 ^ Understand the concept of steady state stability. 4 Week 12 ^ Understand the concept of transient stability. 4

IX. Evaluation Policy:

Marks

Distribution:

Attendance Quiz

Assignment Presentation Mid-term exam Final Exam

10%

15%

10%

25%

30%

Total 100%

Grading System: As per DIU rule

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X. Resources:

Textbook(s):

[1] Elements of Power System Analysis, 4^th Ed. Willaim D. Stevenson, Jr.

[2] Power System Analysis, Hadi Saadat.

[3] Modern Power System Analysis, D P Kothari & I J Nagrath.

[4] Online Materials [5] Google Classroom

[6] Blended learning system (Moodle)

XI. Course Link in Moodle/Google Class Room:

https://elearn.daffodilvarsity.edu.bd/course/view.php?id=11484 Google Class Room:

DAY- 3-1 (PC) & 3-3 (CC) : ttkfrhu EVE- 3-2 (PC) : klnenis

EVE- 3-1 (PC) & 2-3 (PC) : kfhnyqa EVE- 2-2 (PC) : 4t2affq

EVE- 3-1 (CC) : 725yyuk

XII. Course Instructor(s):

 Name: Mahzuba Islam Designation: Sr. Lecturer

Email: [email protected] Cell: 01670964222

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