The postgraduate degree, M.Tech in Thermal Engineering, provides an in-depth understanding of various aspects related to heat transfer, thermodynamics as well as energy conversion systems. It focuses on equipping students with advanced knowledge and skills to analyse along with design thermal systems and processes.

The program typically covers subjects such as advanced thermodynamics, heat transfer, fluid mechanics, combustion, energy systems along with renewable energy technologies. Students gain a strong foundation in fundamental principles and theories while also exploring the latest developments as well as emerging trends in the field.

Throughout the course, students engage in theoretical lectures, practical laboratory sessions as well as research projects. They learn to utilise advanced software and simulation tools to model and optimise thermal systems. 

Additionally, students may get opportunities for internships or industry collaborations to gain practical experience and apply their knowledge in real-world scenarios.

Overall, M.Tech in Thermal Engineering offers a comprehensive education that prepares students to contribute to the development as well as optimization of thermal systems, energy-efficient technologies and sustainable energy solutions

The core subjects of M.Tech in Thermal Engineering may vary slightly depending on the specific curriculum of the institution offering the program. However, the following are some common core subjects that are typically included in M.Tech Thermal Engineering programs:

• Advanced Thermodynamics
• Heat Transfer
• Fluid Mechanics
• Combustion Engineering
• Energy Systems
• Thermal System Design
• Renewable Energy Technologies
• Computational Fluid Dynamics (CFD)

These are some of the core subjects commonly found in M.Tech Thermal Engineering programs. However, it's important to note that specific programs may have additional or slightly different subjects based on their curriculum and focus areas

M.Tech in Thermal Engineering program emphasises on practical learning to provide students with hands-on experience and real-world skills. Here are some common ways in which practical learning is incorporated into the program:

• Laboratory Sessions
• Simulation and Software Tools
• Design Projects
• Industrial Visits and Internships
• Research Projects
• Seminars and Workshops

Furthermore, following the practical learning approach ensures that M.Tech in Thermal Engineering students not only grasp theoretical concepts but also develop the skills along with expertise required to address real-world thermal engineering challenges and contribute effectively in industrial or research settings

The course curriculum of M.Tech in Thermal Engineering may vary depending on the specific university or institution offering the program. However, I can provide a general overview of the typical year-wise course structure for M.Tech in Thermal Engineering:

Several top institutes in India offer M.Tech in Thermal Engineering programs. Here are some renowned institutes known for their excellence in thermal engineering education and research:

• Indian Institute of Technology, Bombay (IIT Bombay)
• Indian Institute of Technology, Delhi (IIT Delhi)
• Indian Institute of Technology, Kanpur (IIT Kanpur)
• Indian Institute of Technology, Madras (IIT Madras)
• Indian Institute of Technology, Kharagpur (IIT Kharagpur)
• Indian Institute of Technology, Roorkee (IIT Roorkee)
• National Institute of Technology, Tiruchirappalli (NIT Trichy)
• National Institute of Technology, Warangal (NIT Warangal)
• Birla Institute of Technology and Science, Pilani (BITS Pilani)
• Jadavpur University, Kolkata
• Delhi Technological University, Delhi (DTU)
• College of Engineering, Pune (COEP)
• Indian Institute of Technology, Guwahati (IIT Guwahati)
• Vellore Institute of Technology, Vellore (VIT Vellore)
• National Institute of Technology, Kurukshetra (NIT Kurukshetra) 

Moreover, the above listed institutes are known for their strong academic curriculum, experienced faculty, research facilities, industry collaborations as well as placement opportunities. However, it's essential to review the specific programs, admission requirements and research areas offered by each institute to determine which one aligns best with your interests and career goals

M.Tech in Thermal Engineering provides a solid foundation and opens up opportunities for continuous career growth and advancement. Here are some aspects of career growth that M.Tech in Thermal Engineering graduates can expect:

• Specialisation and Expertise
• Leadership and Management Roles
• Research and Development
• Entrepreneurship and Consulting
• Continued Learning and Professional Development
• International Opportunities

In addition to this, M.Tech in Thermal Engineering graduates have diverse pathways for career growth ranging from technical expertise and leadership roles to entrepreneurship and research. By staying abreast of industry developments, continuously upgrading skills along with leveraging their knowledge and experience, graduates can carve out a successful and rewarding career in thermal engineering

M.Tech in Thermal Engineering offers a wide range of career opportunities as well as a promising scope for graduates. Here are some aspects highlighting the scope of M.Tech in Thermal Engineering:

• Industry Demand
• Energy Efficiency and Sustainability
• Renewable Energy Technologies
• Research and Development
• Consulting and Energy Management
• Higher Education and Academia
• Global Opportunities

Overall, M.Tech in Thermal Engineering offers a broad scope for graduates with opportunities in diverse industries, research, consulting, renewable energy as well as academia. The growing emphasis on energy efficiency, sustainability and renewable energy ensures a promising career outlook for thermal engineering professionals