MSc in Power System Engineering at Manmohan Technical University , MSc in Power System Engineering Colleges in Nepal

MSc In Power System Engineering

Affiliated to: Manmohan Technical University

About Course

Course Title : MSc In Power System Engineering
Category/Level : Masters
Course Duration (months) : 24 months
Cost Range (NPR) :
Affiliated to : Manmohan Technical University

Course Description:

The Master of Science (MSc) in Power System Engineering program of Manmohan Technical University (MTU) is designed to bridge the gap between traditional electrical grid operations and modern, sustainable solutions. By equipping graduates with specialized skills in design, analysis, and management, MTU aims to produce high-level technical manpower capable of leading Nepal’s transition toward a greener and more resilient energy sector.

The course content focuses on high-level technical competencies, including power system dynamics, grid integration of renewable energy, and the operation of smart systems. The program expects to produce expert engineers capable of addressing the complex challenges of modernizing the national power infrastructure and advancing sustainable energy practices.

Admission info

Eligibility
- Bachelor’s degree in Electrical Engineering (4-year program) or equivalent.
- Minimum 16 years of formal education (12 years of school + 4 years of Bachelor's).
- At least a 2.0 GPA (out of 4.0) or Second Division in the Bachelor's degree.
- Students appearing for their final exams may apply, but must submit proof of passing before the admission list is published.

The entrance examination will be conducted via computer-based methods (Information Technology-based).

Syllabus

Curricular Structure
Year I Semester I
EG801EE Computer Aided Power System Analysis (3 Credit)
EG802EE Distributed Systems Design and Operation (3 Credit)
EG803EE Extra High Voltage AC Systems (3 Credit)
EG804EE Power System Dynamics and Stability (4 Credit)
EG--EE Elective I (3 Credit)

Year I Semester II
EG851EE Power System Reliability and Risk Assessment (4 Credit)
EG852EE Power Market and Deregulation (3 Credit)
EG853EE Distributed Generation and Grid Integration (3 Credit)
EG854EE Power System Operation and Economics (3 Credit)
EG--EE Elective II (3 Credit)

Year II Semester I
EG901EE Digital Protection of Power System (3 Credit)
EG--EE Elective III (3 Credit)
EG905EE Research Methodology (3 Credit)
EG906EE *Research Project - Leading to thesis (4 Credit)

Year II Semester II
EG951EE *Thesis (15 Credit)
Total credits: 60

ELECTIVE I
1 [EG805EE] Mathematical Programming
2 [EG806EE] Operation Research and Optimization Techniques
ELECTIVE II
1 [EG855EE] FACTS Devices
2 [EG856EE] Switchyard Design
ELECTIVE III
1 [EG902EE] Power Quality Improvement
2 [EG903EE] Power Electronics for Renewable Energy Systems
4 [EG904EE] Condition Monitoring and Fault Diagnostics