Explore advanced topics in heat power engineering. Study thermodynamics, energy conversion, renewable energy systems, and more. Develop expertise in optimizing heat-based power generation.
The Master of Technology (M.Tech.) in Heat Power program is designed to provide students with an in-depth understanding of thermodynamics, heat transfer, and energy conversion systems. Heat power engineering is a critical field that focuses on the efficient utilization of thermal energy, making it essential in various industries, including power generation, manufacturing, and automotive.
The syllabus for this program is comprehensive, covering fundamental principles and advanced topics related to heat power engineering. Students explore subjects such as thermodynamics, fluid mechanics, combustion, and heat transfer, gaining insights into energy conversion processes, renewable energy technologies, and thermal system design.
Practical applications and hands-on experience are integral components of this program. Students engage in laboratory experiments, computer simulations, and projects that allow them to analyze and optimize heat power systems. Additionally, they study the environmental aspects of energy utilization, emphasizing sustainable and eco-friendly practices.
Upon graduation, students are equipped to pursue careers as thermal engineers, energy consultants, or researchers in both the public and private sectors. They play a crucial role in developing and implementing energy-efficient solutions that contribute to a sustainable future.
Here is an overview of the syllabus and subjects typically covered in the Master of Technology in Heat Power program:
S.no | Subjects |
1 | Advanced Thermodynamics |
2 | Advanced Heat Transfer |
3 | Numerical Methods & Computational Techniques |
4 | Modeling and Analysis in Thermal Engineering |
5 | Fluid Dynamics |
2nd Year OR 3rd & 4th Semester Syllabus of Master of Technology (M.Tech.) in Heat Power
S.no | Subjects |
1 | Cryogenic Engineering |
2 | Steam and Gas Turbines |
3 | Computational Fluid Dynamics |
4 | Nano Technology |
5 | Advanced Optimization Techniques |
6 | JET & Rocket Propulsion |
7 | Project Management and IPR |
8 | Project Stage |
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