The Master of Technology (M.Tech.) in Thermal Engineering syllabus at Sarala Birla University, Ranchi is designed to provide overall knowledge to the students with a strong foundation. Master of Technology (M.Tech.) in Thermal Engineering faculty at Sarala Birla University specially focus on in-depth learning to relevant subjects. At first semester syllabus of Master of Technology (M.Tech.) in Thermal Engineering at Sarala Birla University, students learn the basics of programme. A strong foundation is very important for comprehensive learning. Master of Technology (M.Tech.) in Thermal Engineering syllabus at Sarala Birla University, Ranchi maintains a balance between theoretical knowledge and practical knowledge.
Master of Technology (M.Tech.) in Thermal Engineering first year students at Sarala Birla University are introduced with core subjects. Then they are encouraged to explore other area for a broader perspective. Sarala Birla University, Ranchi also provides practical training sessions, workshops, projects, and case studies to enhance student skills. Master of Technology (M.Tech.) in Thermal Engineering syllabus at Sarala Birla University, Ranchi is also frequently updated to give industry relevant training and knowledge to students. Sarala Birla University strives to provide a nurturing environment where students can learn new skills. The hands-on training sessions at Sarala Birla University enable Master of Technology (M.Tech.) in Thermal Engineering students to apply knowledge and skills in a controlled environment and get required experience.
According to syllabus of Master of Technology (M.Tech.) in Thermal Engineering progress, students learn advanced topics and complex concepts. The Master of Technology (M.Tech.) in Thermal Engineering curriculum at Sarala Birla University, Ranchi mainly focuses on analytical and critical thinking. As the Master of Technology (M.Tech.) in Thermal Engineering course unfolds, students develop several important skills that increases their employability. As per syllabus of Master of Technology (M.Tech.) in Thermal Engineering at Sarala Birla University also includes real-life projects and internship programs. It helps students critical thinking and gives them real-world experience.
Master of Technology (M.Tech.) in Thermal Engineering curriculum at Sarala Birla University includes group discussions, guest lectures, case studies, and skill development workshops to enhance the learning experience. The Master of Technology (M.Tech.) in Thermal Engineering syllabus at Sarala Birla University aims to create well-rounded professionals equipped with the necessary skills and knowledge to succeed in their chosen fields.
Additional curriculum at Sarala Birla University
Note: Given below syllabus is based on the available web sources. Please verify with the Sarala Birla University, Ranchi for latest Master of Technology (M.Tech.) in Thermal Engineering curriculum.
The syllabus for an M.Tech in Thermal Engineering program is structured to provide students with a comprehensive understanding of thermal sciences and energy systems. It consists of core courses, elective courses, and a project or thesis component. Core courses cover fundamental topics such as thermodynamics, heat transfer, fluid mechanics, and energy conversion systems, enabling students to grasp the essential principles in these areas. Elective courses offer flexibility for students to explore specialized topics like renewable energy, computational fluid dynamics, and nuclear thermal engineering. Additionally, the program includes a project or thesis component, allowing students to apply their knowledge to real-world challenges or engage in research. Overall, the syllabus equips graduates with the expertise needed to excel in diverse roles within the field of thermal engineering, from designing energy-efficient systems to advancing renewable energy technologies.
Syllabus of M.Tech in Thermal Engineering
Year 1
S.No | Subjects |
1 | Advanced Fluid Mechanics |
2 | Experimental Methods in Thermal Engineering |
3 | Advanced Heat and Mass Transfer |
4 | Advanced Thermodynamics |
5 | Advanced Power Generation Systems |
6 | Lattice Boltzmann method |
7 | Combustion |
8 | Micro/nano scale heat transfer |
9 | Project |
Year 2
S.No | Subjects |
1 | Computational Heat Transfer |
2 | Radiative Heat Transfer |
3 | Convective Heat Transfer |
4 | Steam and Gas Turbines |
5 | Internship Training |
6 | Project |
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