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Ph.D. in Energy and Power is one of the postgraduate courses with specialization in energy and power engineering at the doctoral level. The degree usually takes about 4-5 years in general, including both course and thesis. Emphasis is on the advanced topics in energy conversion, power electronics, renewable energy systems, smart grids, electric drives, power system control and protection, high voltage engineering, etc. Some of the courses are theoretical in nature while others have strong application orientation. It is intended to build up research capabilities in several other emerging domains of power sector. The target audience is prepared for the job as energy consultants, conduct industry projects, and continue academic activities.
The Admission to Ph.D. (Energy and Power) shall be based on valid GATE score or CEED score as the entrance exam. The applicants who have appeared UGC-CSIR NET for National Eligibility Test, SET for State Eligibility Test or have qualified through JRF (Junior Research Fellowship) are also eligible to apply. The selection process, which is conducted to select suitable candidates for research in energy and power domains, includes an interview to evaluate the candidate’s interest and aptitude for the same. The applicants who qualified to the final stage of the competition have to provide a description of a possible research proposal that they will develop if selected for funding.
| Feature | Description |
|---|---|
| Full Form | Doctor of Philosophy (Energy and Power) |
| Also Known As | Ph.D. in Power Systems, Ph.D. in Electrical Engineering (Energy Focus) |
| Duration | 4-6 years (full-time), may vary depending on the program |
| Course Level | Doctoral Level |
| Eligibility | Master's degree in Electrical Engineering, Energy Engineering, or a closely related field with a strong foundation in power systems, thermodynamics, and potentially renewable energy technologies. |
| Top Universities (World) | Massachusetts Institute of Technology (MIT) (USA), Stanford University (USA), Tsinghua University (China), ETH Zurich (Switzerland), Imperial College London (UK) |
| Top Universities (US) | University of California Berkeley (USA), Georgia Institute of Technology (USA), University of Illinois Urbana-Champaign (USA), Purdue University (USA), Texas A&M University (USA) |
| Entrance Exam | University-specific entrance exams (GRE General Test possible), research proposal review, and interview processes. |
1. Should possess a Bachelor’s degree in engineering or technology with not less than fifty five percent aggregate marks or equivalent CGPA from a reputed University.
2. For SC/ST candidates, minimum 55% marks in Master’s Degree and valid GATE/NET or cleared national level exams conducted by Central Government Departments and their Agencies and Institutions such as DST, DBT, DAE, DOS, DRDO, MHRD, ICAR, ICMR, IIT, IISc, IISER etc.
3. Post Graduation in energy/power engineering or any related stream with minimum CGPA of 6 on a scale of 10 or equivalent.
4. Multifaceted personality and the candidate has never been below average in any of the academic grades.
5. Effective communication skills, critical thinking, research and the ability to solve any problems encountered.
6. For admission into any institution for Ph.D program, passing any extra entrance exam and interview set by the institution.
| Subject | Important Topics |
|---|---|
| Power System Analysis | Advanced power system modeling and simulation techniques, Power system stability and control, Economic dispatch and optimal power flow |
| Power System Protection | Fault analysis and protection schemes for power systems, Microgrids and distributed generation protection, Cybersecurity in power systems |
| Power Electronics and Drives | Advanced power electronic converter topologies, Integration of renewable energy sources with power grids, Motor drives and control for electric vehicles |
| Power Generation Technologies | Advanced fossil fuel power plants and clean coal technologies, Nuclear power plant engineering and safety analysis, Renewable energy sources (solar, wind, geothermal) |
| Career Path | Description | Salary Range | Specialization |
|---|---|---|---|
| University Professor (Energy Engineering) | Conduct research on power systems, renewable energy, or energy policy, teach courses, and publish scholarly work. | $80,000 - $140,000+ | Power Systems Analysis, Power Electronics & Drives, Renewable Energy Technologies |
| Research Scientist (Energy Sector) | Work in government labs, research institutions, or private companies on developing new technologies for power generation, transmission, or energy storage. | $90,000 - $150,000+ | Power System Optimization, Smart Grid Technologies, Energy Storage Systems |
| Power Systems Engineer | Design, analyze, and optimize power systems for utilities, transmission system operators, or consulting firms. | $80,000 - $130,000+ | Power System Analysis, Power System Protection, Power System Planning & Design |
| Renewable Energy Engineer | Focus on the development, integration, and management of renewable energy sources like solar, wind, or geothermal power. | $90,000 - $140,000+ | Renewable Energy Technologies, Power Electronics & Drives, Energy Policy |
