Master the science of heat and energy for innovative engineering solutions.
Course Overview
The M.E. Thermal Engineering program provides advanced knowledge in thermodynamics, heat transfer, fluid mechanics, and energy systems. It focuses on the design, analysis, and optimization of thermal devices and systems such as engines, turbines, HVAC systems, and renewable energy technologies. Students learn to apply theoretical concepts and computational tools to solve complex thermal problems, preparing them for research, development, and leadership roles in industries related to power generation, automotive, aerospace, and energy management.
The curriculum covers Advanced Thermodynamics, Heat Transfer, Fluid Mechanics, Combustion Engineering, Renewable Energy Systems, Computational Fluid Dynamics (CFD), and Energy Management. The program combines theoretical knowledge with laboratory experiments and project work to develop practical skills.
Develop skills to implement sustainable and renewable energy solutions in industrial processes.
Advanced concepts in structural analysis and design of buildings and bridges.
Focus on earthquake-resistant and sustainable engineering practices.
Study of material behavior under various loads.
Use of finite element methods and software tools.
Emphasis on safety, stability, and cost-effectiveness.
Preparation for modern construction and infrastructure challenges.
Career Opportunities
Thermal Design Engineer
Energy Analyst
Power Plant Engineer
HVAC Engineer
Combustion Engineer
Renewable Energy Consultant
Our Esteemed Recruiters
We proudly collaborate with top companies that value talent and innovation, offering our students exceptional career opportunities.
From SSIET to the World’s Leading Companies
Graduates from SSIET are well-prepared to enter the world’s best companies. With strong technical expertise, innovative thinking, and problem-solving abilities, our alumni make a difference in shaping industries worldwide.
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