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The mission of the M.Tech in Thermal Engineering program is to develop highly skilled professionals and researchers equipped with advanced knowledge and technical expertise in the field of thermal sciences and engineering. This program is designed to address the growing demand for innovative solutions in energy systems, heat transfer applications, and thermal management across diverse industries. The program seeks to provide students with a deep understanding of fundamental and applied aspects of thermodynamics, heat transfer, fluid mechanics, and energy conversion systems.
The vision of the M.Tech in Thermal Engineering program is to become a globally recognized center of excellence in thermal sciences and engineering, fostering innovation, sustainability, and technological advancements in energy systems and thermal management. The program envisions producing industry-ready professionals and pioneering researchers who excel in designing and optimizing energy-efficient thermal systems, addressing global energy challenges, and contributing to sustainable development. By leveraging cutting-edge technologies, the program aims to lead advancements in renewable energy.
Co-ordinator, Department of Thermal Engineering
The M.Tech in Thermal Engineering is a postgraduate program designed to provide advanced knowledge and technical expertise in the principles and applications of thermal sciences. This program prepares students to tackle complex challenges in the design, analysis, and optimization of thermal and energy systems, equipping them with the skills needed to address the demands of industries and research in energy and heat transfer technologies.
The curriculum covers key areas such as advanced thermodynamics, heat transfer, fluid mechanics, computational fluid dynamics (CFD), energy systems engineering, renewable energy technologies, refrigeration, and air-conditioning systems. It integrates a strong theoretical foundation with practical applications through state-of-the-art laboratories, simulation tools, and industry-focused projects.
Demonstrate in-depth knowledge of thermodynamics, heat transfer, and fluid mechanics to design and analyze thermal systems.
Develop and optimize energy-efficient systems for power generation, HVAC, renewable energy, and process industries, ensuring sustainability and cost-effectiveness.
Utilize modern simulation and computational tools such as CFD (Computational Fluid Dynamics), ANSYS, and MATLAB.
Evaluate and address challenges in thermal management, energy storage and waste heat recovery.
