M.Tech in Thermal Engineering
Master of Technology in Thermal Engineering
BEST UNIVERSITY FOR M.TECH THERMAL ENGINEERING IN ROORKEE, UTTARAKHAND
M.Tech in Thermal Engineering is a two-year postgraduate program designed for students aiming to specialize in heat transfer, thermodynamics, fluid mechanics, and energy systems. This advanced program focuses on the analysis, design, and optimization of thermal systems used in power plants, engines, HVAC, renewable energy technologies, and industrial processes. It integrates theoretical concepts with practical applications to solve real-world energy and thermal management challenges, making graduates industry-ready.
To provide a deep understanding of thermal systems, heat exchangers, and combustion processes.
To develop technical expertise in modeling, simulation, and analysis of heat and fluid flow.
To prepare students for careers in energy production, automotive industries, HVAC design, and power engineering.
To foster innovation and research in sustainable and efficient thermal energy systems.
To build proficiency in thermal design tools, renewable energy systems, and computational fluid dynamics (CFD).
A Bachelor’s degree in Mechanical Engineering, Automobile Engineering, Aerospace Engineering, or a related field from a recognized university.
Minimum of 45% marks in the qualifying degree (40% for reserved categories as per applicable norms).
Preference will be given to candidates with a valid GATE score in Mechanical Engineering or relevant disciplines.
Entrance Exams for M.Tech in Thermal Engineering include:
- Admission is typically based on GATE scores and academic performance.
- University-Specific Exam (PUET)
- Common University Entrance Exam (CUET)
Click here for a detailed Fee Structure.
Course Highlights
Course Benefits
Career Opportunities
Collaborations
Course Highlights
Duration: 2 Years (4 Semesters)
In-depth study of thermodynamics, heat transfer, fluid dynamics, and energy systems
Exposure to simulation software such as ANSYS Fluent, MATLAB, and CFD tools
Practical lab sessions with experiments in internal combustion engines, boilers, turbines, and refrigeration systems
Projects and seminars on thermal system optimization and renewable energy technologies
Interdisciplinary approach incorporating AI, IoT, and smart energy solutions
Course Benefits
Builds specialized knowledge in core thermal engineering domains and emerging technologies
Enhances analytical, problem-solving, and design skills essential for modern industries
Offers strong research opportunities in advanced energy systems and sustainable technologies
Increases employability across power generation, automotive, HVAC, and energy sectors
Prepares students for higher studies, R&D roles, or academic careers
Career Opportunities
Graduates of M.Tech in Thermal Engineering can pursue careers in a wide range of industries and roles such as:
Thermal Design Engineer
Power Plant Engineer
HVAC Design Specialist
Energy Efficiency Consultant
Research and Development Engineer
CFD Analyst
Maintenance Engineer (Thermal Systems)
Automotive Thermal System Engineer
Process Engineer (Refineries and Chemical Plants)
Academic and Research Faculty in Engineering Institutions
Collaborations
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PLACEMENT
CAREER PROSPECTS
The global emphasis on energy efficiency, green technologies, and sustainable development has amplified the demand for skilled thermal engineers. Opportunities are available in government agencies, power generation companies, automobile manufacturers, HVAC and refrigeration industries, research organizations, and consulting firms. Professionals can also pursue doctoral programs and contribute to advancements in renewable energy, waste heat recovery, and smart thermal systems.
FAQs
The program is two years long, divided into four semesters.
GATE is preferred and often required for admission in reputed institutions, though some universities conduct their own entrance exams.
Key subjects include advanced thermodynamics, heat transfer, fluid mechanics, thermal system design, power plant engineering, refrigeration, and air conditioning.
Students are trained in tools such as ANSYS Fluent, SolidWorks Flow Simulation, MATLAB, and other CFD and thermal analysis platforms.
Yes, most institutions offer internships, industry visits, or live projects to provide real-world exposure and practical skills.
Yes, the course provides a strong foundation for research, and many graduates choose to pursue doctoral studies in thermal engineering or energy systems.
Industries such as power generation, oil and gas, automotive, HVAC, aerospace, energy consultancy, and R&D organizations actively recruit thermal engineers.