About the course
Course Overview: The MTech in Power System Engineering is a postgraduate degree that focuses on advanced topics in electrical power systems. It includes the study of power generation, transmission, distribution, control, and optimization. Students also learn about smart grids, renewable energy, power electronics, and electrical machinery, along with practical problem-solving and research methodologies.
Duration: Typically 2 years (4 semesters).
Mode of Study: Full-time and part-time options are available at many universities.
Eligibility
- Educational Qualification: A Bachelor's degree in Electrical Engineering, Power Engineering, or any related field (BTech/BEng) with a minimum aggregate of 50-60% (may vary with institution).
- Entrance Exams: Admission is generally based on entrance exams like GATE (Graduate Aptitude Test in Engineering) in India, or other equivalent exams in different countries.
- Additional Requirements: Some institutions may also consider personal interviews, written tests, or project work.
- Other Requirements:Pass with 55% aggregate marks in B. Tech. ( Electrical Engineering or Electrical and Electronics Engineering or Instrumentation engineering or Instrumentation and Control or Electronics and Instrumentation) or equivalent, subject to qualifying LPUNEST* or GATE.
Why to study ME/MTech Power System Engineering?
- Specialized Knowledge: It provides deep knowledge in the domain of electrical power systems, equipping you with advanced skills in electrical grids, energy systems, and power management.
- Growing Demand: With the growing importance of renewable energy, electric vehicles, and sustainable power solutions, expertise in power systems is highly in demand.
- Innovation in Technology: The course includes cutting-edge technology like smart grids, digital control, power quality, and renewable energy systems.
- Career Advancement: An MTech in Power Systems opens opportunities for higher positions in both public and private sectors, offering leadership and research-oriented roles.
- Research Opportunities: For students interested in academic or industrial research, MTech provides opportunities to work on projects that contribute to advancements in power systems and energy technologies.
Scope of ME/Mtech Power System Engineering
- Job Opportunities: Power engineers are in demand in industries like power generation, renewable energy, electric vehicles, utilities, and grid management.
- Technological Advancements: The shift towards smart grids, energy storage, and clean energy makes this field even more relevant, ensuring long-term career prospects.
- Global Demand: Power systems engineers are sought after worldwide, as most countries are looking to improve infrastructure and invest in renewable energy.
- Growth Areas: With the emphasis on renewable energy sources (solar, wind, etc.) and electric vehicles, power system engineering provides a pathway for professionals to work on critical global challenges.
Top 10 colleges in India
| S.NO | NAME OF THE COLLEGE | AVERAGE PACKAGE | NO OF SEATS | PLACE |
|---|---|---|---|---|
| 1 | Indian Institute of technology, Delhi | Rs.14lakhs avg | 44 | Delhi |
| 2 | Indian Institute of technology,Madras | Rs.17 lakhs avg | 12 | Chennai,Tamil Nadu |
| 3 | Indian Institute of technology, Kharagpur | Rs.21.28 Lakhs avg | 22 | Kharagpur,West Bengal |
| 4 | Jamia Millia Islamia | Rs.13 lakhs avg | 22 | Delhi |
| 5 | National Institute of Technology,Surathkal | Rs.11 lakhs avg | 18 | Mangalore,Karnataka |
| 6 | National Institute of Technology,Trichy | Rs.10 lakhs avg | 35 | Trichy,Tamil Naadu |
| 7 | Indian Institute of Technology,Roorkee | Rs.12 lakhs avg | 25 | Roorkee,Uttarakhand |
| 8 | Jadavpur University | Rs.9.3Lakhs avg | 34 | Kolkata |
| 9 | National Institute of technology,Rourkela | Rs.9.65 lakhs avg | 25 | Rourkela,Odisha |
| 10 | College of engineering ,pune | Rs.6.5 lakhs avg | 18 | Pune,Maharastra |
Syllabus of the Course
YEAR 1
| SEM 1 | SEM 2 |
|---|---|
| Power System Operation & Control | Advanced Mathematics |
| Advanced Power System Analysis | H.V.D.C. Transmission |
| Advanced Power Electronics | Power System Protection |
| Digital Control Systems | Microprocessors and their applications |
| Power System Software Lab | Industrial Automation Lab |
YEAR 2
| SEM 3 | SEM 4 |
|---|---|
| Advanced Electrical Machines | Non-Conventional Energy Sources |
| Fast Transients in Power Systems | Power System Communication |
| Elective I | Technical Seminar |
| Dissertation: Phase I | Dissertation: Phase II |
Fees Structure
| TYPE OF QUOTA | AVERAGE FEES PER YEAR |
|---|---|
| Government Quota | ₹30,000 to ₹1,50,000 per year approx |
| Management Quota | ₹1,50,000 to ₹3,00,000 per year approx |
Job Roles
- Power System Engineer:Responsible for the operation, maintenance, and optimization of electrical power systems.
- Energy Manager: Ensures efficient use of energy resources, focusing on reducing energy consumption and promoting sustainable solutions.
- Renewable Energy Engineer: Focuses on integrating renewable sources like wind, solar, and hydroelectric power into existing systems.
- Power Electronics Engineer: Works with power conversion and control systems, such as those found in renewable energy technologies and electric vehicles.
- Consultant: Provides expertise to utility companies, industries, and government bodies on power system optimization, energy efficiency, and infrastructure development.