M.Tech. Thermal Engineering is a 2- year postgraduate course divided into 4 semesters, each lasting a period of 6 months. The course involves real-time applications of fluid flow and heat transfer in Thermal Energy Systems, Cryogenic Engineering and Refrigeration & Air Conditioning etc.
Top Institutes offering M.Tech. Thermal Engineering course are:
- IIT, New Delhi
- IIT Madras, Chennai
- IIT Dhanbad
- NIT Karnataka
- Delhi Technological University (DTU), New Delhi
The average fee charged in India for the course ranges between INR 3 and 6 Lacs, depending upon the institute offering the course.
Average annual entry- level salary offered to Thermal Engineers in the country ranges between INR 3 to 10 Lacs, depending upon the candidate’s expertise in the field, and the institute of graduation.
Successful postgraduates of the course are hired in capacities such as Mechanical Engineer, Researcher, Maintenance Engineer, among others.
M.Tech. Thermal Engineering: Course Highlights
Tabulated below are some of the major highlights of the course.
|Examination Type||Semester System|
|Eligibility||A Bachelor’s degree from a recognized university|
|Admission Process||Counselling after qualification of entrance test|
|Course Fee||INR 3 to 5 Lacs|
|Average Starting Salary||INR 3 to 10 Lacs|
|Top Recruiting Companies||TATA Motors Ltd., Ashok Leyland, Maruti Suzuki Motors Ltd., among others.|
M.Tech. Thermal Engineering: What is it About?
M.Tech.Thermal Engineering is a postgraduate course involving- on an advanced level- concepts of energy efficiency, renewable energy & environmental preservation, and their entwinement with classical energy technologies and recently discovered technologies.
Enrolled candidates are trained in design, development, and simulation and to explore new areas in Thermal Energy Systems and allied sciences. The first two semesters of the course involve theoretical subjects & laboratory sessions, while the third semester is about theory & project work and the fourth semester focusses fully on project work.
M.Tech. Thermal Engineering: Top Institutes
Listed below are some of the top institutes offering M.Tech. Thermal Engineering course in India. Also mentioned are the corresponding locations and the average fees charged by each.
|NAME OF INSTITUTE||CITY||AVERAGE ANNUAL FEE IN INR|
|Delhi Technological University (DTU)||New Delhi||88,500|
|Indian Institute of Technology (IIT)||Kharagpur||60,000|
|Indian Institute of Technology (IIT)||Roorkee||59,000|
|College of Engineering, Anna University||Chennai||45,220|
|National Institute of Technology KARNATAKA (NITK)||Surathkal||70,000|
Eligibility for M.Tech. Thermal Engineering
Candidates having qualified 10+2 from a recognized educational Board with Physics, Chemistry & Math as main subjects and a Bachelor’s degree (B.E./ B. Tech) in any of Mechanical, Automobile, and Aeronautical engineering, or equivalent discipline, with a minimum aggregate score of 55% are eligible to apply for M.Tech. Thermal Engineering course. This percentage criterion, however, may vary across institutes.
M.Tech. Thermal Engineering: Admission Process
Eligible students upon clearing the 10+2 qualification in Physics, Chemistry and Maths with the minimum eligible score, are needed to qualify a relevant national- level entrance exam such as JEE Main, JEE Advanced or other State- level exams. Based on performance in such tests, and in rounds of group discussion and personal interview, students are admitted to the course.
Upon clearing the JEE Advanced, students are admitted to IITs and upon clearing the JEE Main exam, they are admitted to other State-level engineering colleges. The exam pattern of almost all the entrance exams held for admission to engineering colleges is similar, with the 3 main sections included, viz. Physics, Chemistry, and Mathematics.
Most institutes accept GATE scores and many of them conduct their own entrance tests, based on performance in which, candidates are selected.
Some institutes also allow candidates who are in the final year of graduation to apply for admission to the course on a provisional basis.
M.Tech. Thermal Engineering: Syllabus and Course Description
Semester- wise, students of the course in India study the following as part of M.Tech. Thermal Engineering course curriculum:
|SEMESTER I||SEMESTER II|
|Advanced Mathematics||Advanced Heat Transfer|
|Instrumentation & Measuring Systems||Gas Turbines & Compressors|
|Modeling, Simulation & Computer Applications||Refrigeration & Air Conditioning Design|
|Advance Thermodynamics||Elective 1|
|Advance Fluid Mechanics||Elective 2|
|Lab 1||Lab 2|
|SEMESTER III||SEMESTER IV|
|LIST OF ELECTIVES|
|Computational Fluid Dynamics & Heat Transfer||Combustion|
|Thermal Power Point||I.C. Engines|
|Hydro-Dynamic Machine||Air Conditioning & Ventilation|
|Renewable Energy System||-|
M.Tech. Thermal Engineering: Who Should Opt?
Candidates with interest in the specialities of Engineering Thermodynamics, Fluid Mechanics and Heat Transfer are ideally suited for the course. Ideal candidates would be proficient in the natural sciences & mathematics.
M.Tech. Thermal Engineering: Career Prospects
M.Tech. Thermal Engineering is fast evolving both in India and abroad, owing to the rapidly growing automobile industry.
Some of the organizations that hire successful postgraduates of the course are TATA Motors Ltd, Hyundai Motors Ltd, Mahindra & Mahindra Ltd., Maruti Suzuki Motors Ltd, Ashok Leyland, Hindustan Motors, TCS Ltd., Vestas, and Visteon, among others.
Postgraduates interested in pursuing higher studies in the discipline may go for pursuing a Ph. D in the subject.
Related M.Tech. Thermal Engineering courses are:
Read about more Master in Technology courses
Listed here are some of the popular job positions offered to successful postgraduates of the discipline with the corresponding job descriptions and salaries offered.
|JOB POSITION||JOB DESCRIPTION||AVERAGE ANNUAL SALARY IN INR|
|Thermal Engineer||Responsible for applying principles of thermodynamics to design and build systems that transfer heat or energy.||3 to 4 Lacs|
|Researcher||Responsible for working with team members to identify project goals, research methods, variables, and other test parameters. They also choose how to collect data and offer recommendations on evaluating a project.||5 to 7 Lacs|
|Mechanical Engineer||Responsible for designing power-producing machines such as electric generators, internal combustion engines, and steam and gas turbines as well as power-using machines, such as refrigeration and air-conditioning systems. Mechanical engineers design other machines inside buildings, such as elevators and escalators.||3 to 5 Lacs|
|Lecturer/ Professor||Responsible for teaching at undergraduate and graduate levels in areas allocated by and reviewed from time to time by the Head of Department, and to supervise or assist with supervision of undergraduate, taught graduate (Masters) or research graduate (MPhil/PhD) students.||4 to 8 Lacs|
|Maintenance Engineer||Responsible for undertaking scheduled and breakdown maintenance of engineering equipment or plants. A Maintenance engineer’s work involves checking, repairing and servicing machinery, equipment, systems and infrastructures.||3 to 5 Lacs|