M.E. in Energy Engineering Shaping Future Leaders in Sustainable Energy Solutions
M.E.in Energy Engineering is a multidisciplinary program that aims to meet the current and growing challenge of dwindling fossil fuel resources and the critical demand for alternative, renewable energy sources as global priorities.
The program covers fundamental engineering knowledge and skills in such areas as energy generation, conversion, electrical power systems and energy management along with modules on energy sources, energy policy, energy economics and associated environmental issues. The program will provide the student with necessary skills to develop as a professional engineer who specializes in dealing with the breadth of energy systems used to generate, convert, transmit and manage energy.
The curriculum comprises of the following Core Engineering Subjects
Applied Fluid Mechanics and Heat Transfer
Thermodynamic Analysis of Energy Systems
Renewable Energy Systems
Renewable Energy Systems
Energy Conservation in Industrial Utilities
Advanced Power Plant Engineering
Numerical Techniques for Differential Equations
Energy Conservation in Industrial Utilities
Measurements and Controls for Energy Systems
The following are the Laboratories part of the curriculum
- Applied Heat Transfer Lab
- Fuels and Energy Systems Lab
- Solar Energy Lab
- Computational Fluid Dynamics Lab
The following are some of the electives offered
- Solar Energy Technologies
- Wind Energy Technologies
- Bio Energy Conversion Techniques
- Electro-Mechanical Energy Conversion
- Nuclear Engineering
- Electric and Hybrid Electric Vehicles
- Steam Generator Technology
- Fluidized Bed Systems
- Electrical Drives and Controls.
- Hydrogen and Fuel Cell Technologies.
- Energy Conservation in Electrical Systems
- Advanced Power Electronics for Renewable Energy Systems
- Energy Efficient Buildings
- Advanced Energy Storage Technologies
- Advanced Energy Materials
- Energy Forecasting, Modeling and Project Management
- Environmental Engineering and Pollution Control
- Waste Management and Energy Recovery
- Nanomaterials for Energy and Environment
- Digital Energy Management
- Design and Analysis of Turbomachines
- Computational Fluid Dynamics
- Design of Heat Exchanges
- Energy Systems Modeling and Analysis
- Power Generation, Transmission and Utilization
- Business Analytics
- Industrial Safety
- Operations Research
- Cost Management of Engineering Projects
- Composite Materials
- Waste to Energy
- Introduction to Data Science
Project Work
Project work is carried out in 2 phases, semester IV being dedicated exclusively for the second phase of the project.
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