M.Tech in Thermal Engineering at Sigma University, Vadodara

Advance your mechanical engineering career with an M.Tech in Thermal Engineering at Sigma University. This industry-aligned M.Tech thermal engineering program features top-tier labs, seasoned faculty, a practical curriculum, and robust placement support. With a two-year, full-time course approved by AICTE and UGC and tailored to Industry 4.0, students are fully prepared. Apply now and heat your future in thermal innovation!

M.Tech in Thermal Engineering is a 2-year Post graduate engineering degree.

Why Pursue M.Tech in Thermal Engineering at Sigma University?

Top Thermal Engineering College in Gujarat

Sigma University is recognized among the premier M.Tech in thermal engineering colleges in the region. The faculty holds strong academic credentials and industry experience in thermal engineering, supported by modern labs equipped with simulation tools and thermal test rigs.

Curriculum Designed for Industry 4.0 Needs

The M.Tech thermal engineering syllabus integrates classical thermal sciences with Industry 4.0 applications, focusing on areas such as CFD, renewable energy systems, IoT-enabled HVAC, and heat transfer in smart manufacturing.

Advanced Labs, Research Grants & Innovation Clubs

State-of-the-art thermal labs feature wind tunnels, combustion rigs, and solar thermal setups. Students can pursue funded research, collaborate in innovation clubs, and take on real-world energy challenges under faculty mentorship.

About the M.Tech in Thermal Engineering Program

Duration: 2 Years | Full-Time Postgraduate Program

The M.Tech in thermal engineering is a rigorous two-year program structured across four semesters. It combines core technical courses, project-based learning, and research. Graduates earn a thermal engineering degree accredited by AICTE and UGC.

Approved by AICTE & UGC

This program meets national academic standards through approval by AICTE and UGC. Sigma’s thermal engineering courses deliver quality education aligned with statutory guidelines, ensuring both recognition and excellence.

Flexible and CBCS-Based Learning Model

Built on a Choice-Based Credit System (CBCS), the program offers flexibility through electives in solar thermal energy, simulation methods, and green energy, allowing students to tailor their studies to emerging interests.

Key Highlights of the Program

Advanced Thermal and Energy Systems Labs

Students conduct experiments with boilers, heat exchangers, fluid flow setups, and CFD simulation labs. Hands-on learning ensures competence in core areas like combustion, thermal-fluid systems, and renewable energy.

Focus on CFD, Renewable Energy, Combustion, and Heat Transfer

Subjects include CFD, heat transfer, internal combustion engines, solar thermal systems, and energy conversion. This reflects the M.Tech thermal engineering syllabus focused on sustainable engineering and real-world applications.

Industry Projects and Live Case Studies

Students tackle live industry challenges in HVAC design, energy optimization, and thermal system modeling. This enhances skills in thermal engineering courses, research, and innovation.

Curriculum & Academic Structure

Semester-Wise M.Tech Thermal Engineering Syllabus

The curriculum includes four core semesters. Semesters 1 and 2 cover thermodynamics, heat & mass transfer, and numerical methods. Semesters 3 and 4 focus on specialized electives like CFD and renewable systems, and culminate in a research dissertation.

Core Subjects: Thermodynamics, Heat & Mass Transfer, IC Engines

Mandatory modules cover fundamentals: thermodynamics, IC engines, combustion science, and heat exchanger design, preparing students for advanced technical roles in thermal engineering.

Electives: Computational Fluid Dynamics (CFD), Solar Thermal Energy, Green Technology

Electives allow deep dives into CFD, solar thermal systems, bioenergy systems, and energy-efficient green technology, reflecting a holistic Master’s in Thermal Engineering approach.

Project Work & Research Dissertation in Final Semester

A mandatory thesis-based final project challenges students to define problems, apply experimental or numerical methods, and publish outcomes, serving as a key milestone in the M.Tech thermal engineering journey.

Eligibility & Admission Process

Eligibility: B.E./B.Tech in Mechanical/Production or Related Fields

Applicants must hold a bachelor’s in mechanical engineering, production, or a similar field. A strong foundation in thermal sciences is necessary to ensure preparedness for the advanced coursework.

Admission Through GATE/University Entrance Test

Admission relies on GATE scores or university entrance exam results. Shortlisted candidates undergo interviews to assess technical aptitude, research interest, and alignment with faculty and labs.

How to Apply Online: Step-by-Step Process

Applicants complete an online form, upload academic documents, and await shortlisting. After document verification and interviews, final merit lists are published. Successful candidates confirm enrollment by paying fees.

Fees, Scholarships & Financial Support

➞ Transparent Annual Fee Structure

The annual fee structure for the M.Tech in thermal engineering is laid out, without hidden costs. It covers tuition, lab access, library, and administrative services.

➞ Scholarships for Meritorious & Reserved Category Students

Sigma University awards scholarships to top-rankers and offers fee concessions for reserved category and economically challenged students.

➞ EMI Plans & Educational Loan Guidance

To ease finances, EMI options are available. Students receive guidance for securing loans through national banks, simplifying the funding of their Master’s in Thermal Engineering degree.

Career Opportunities After M.Tech in Thermal Engineering

Roles: Thermal Analyst, Design Engineer, Energy Consultant, R&D Expert

Graduates with an M.Tech in Thermal Engineering can take up advanced technical roles such as Thermal Analyst, Design Engineer, Energy Consultant, or Research & Development Expert. These roles require a deep understanding of thermal systems, combustion, energy efficiency, and heat transfer, which are thoroughly covered in the M.Tech thermal engineering syllabus.

Job Domains: Power Plants, Automotive, HVAC, Aerospace, Renewable Energy

With a thermal engineering degree, you can work across sectors like power plants, automotive, HVAC, aerospace, and renewable energy. The demand for thermal engineers is growing rapidly in energy-intensive industries that value expertise in heat transfer, energy systems, and sustainable design areas mastered through the M.Tech thermal engineering program.

Scope for Ph.D. and Academic Research in Thermal Sciences

The M.Tech Thermal Engineering program lays a strong foundation for advanced academic pursuits. Students gain research skills through project work and publications, enabling them to pursue a Ph.D. in Thermal Sciences, CFD modeling, or renewable energy. The program aligns with current thermal engineering courses and academic frameworks that prepare graduates for high-level research.

Top Recruiters & Placement Assistance

Companies Hiring M.Tech Thermal Graduates

Leading companies like L&T, BHEL, Thermax, GE, Tata Power, and Siemens actively recruit from M.Tech in thermal engineering colleges. These firms value the specialized skills taught in thermal engineering courses such as thermodynamics, IC engines, and renewable energy systems, positioning graduates for high-impact roles in the energy and manufacturing sectors.

Placement Cell Support: Resume Workshops, Mock Interviews

Sigma’s Placement Cell offers tailored guidance through resume workshops, mock interviews, and industry-readiness sessions. These sessions are designed to prepare students for competitive hiring processes in thermal engineering and help them showcase their competencies built during the master’s in thermal engineering program.

Internships, Industrial Visits & Job Fairs

Sigma University ensures every M.Tech thermal engineering student gains practical industry exposure through internships, regular industrial visits, and participation in job fairs. These initiatives bridge the gap between academic learning and industrial application, making students job-ready for both public and private sector roles.

Faculty Excellence & Research Initiatives

Doctorate-Level Faculty with Real-World Experience

The program is led by experienced Ph.D. holders and researchers who specialize in thermal sciences, energy systems, and combustion. Their practical industry experience enriches the thermal engineering courses offered at Sigma University, ensuring students learn both theory and real-world problem-solving from experts.

Thermal Research Publications & Funded Projects

Faculty and students engage in impactful research that contributes to national and international thermal engineering journals. Ongoing funded projects in renewable energy, CFD analysis, and heat exchanger optimization provide hands-on experience and offer students opportunities to co-author papers and innovate during their M.Tech in thermal engineering.

Collaborations with Research Bodies and Industries

Sigma University collaborates with leading research institutions and industries for joint projects, internships, and consultancy in thermal engineering. These partnerships offer students and faculty platforms to participate in cutting-edge work on energy optimization, sustainable heat transfer, and other core areas in the thermal engineering degree domain.

Student Life & Campus Facilities

Thermal Engineering Labs with Latest Simulation Tools

Students access world-class thermal engineering labs equipped with simulation tools, CFD software, and experimental setups for combustion and energy systems. These labs enhance experiential learning and support research, aligning with the objectives of a comprehensive M.Tech in thermal engineering syllabus.

Mentorship, Clubs, Innovation Forums

Beyond academics, Sigma encourages students to join Innovation Forums, the Mechanical Engineering Club, and R&D cells that focus on thermal and sustainable technologies. Regular mentoring sessions ensure students receive academic and career guidance throughout the M.Tech thermal engineering course duration.

Library, Hostel, Cafeteria, Sports & Wellness Zones

Sigma University’s campus includes a fully equipped library with access to thermal engineering online courses, journals, and thesis archives. Hostel facilities, a hygienic cafeteria, recreation areas, sports facilities, and wellness zones contribute to a healthy and fulfilling student life for those pursuing a master’s in thermal engineering.

M.Tech in Thermal Engineering – FAQs

What are the eligibility criteria for M.Tech Thermal Engineering?

Applicants must hold a B.E./B. Tech in Mechanical, Production, or related disciplines from a recognized institution. A valid GATE score or university entrance test result is required for admission into this thermal engineering course.

What subjects are covered in this program?

The program includes subjects like Thermodynamics, Heat and Mass Transfer, IC Engines, CFD, Renewable Energy Systems, and Green Technology. The structure is designed to reflect the modern M.Tech thermal engineering syllabus that aligns with industry needs.

What is the detailed syllabus of M.Tech Thermal Engineering?

The M.Tech in thermal engineering syllabus is divided into four semesters. Core topics include thermal-fluid systems, advanced thermodynamics, and applied heat transfer. Electives include solar thermal energy, computational fluid dynamics, and sustainability modules, along with a final semester research dissertation.

Is this course AICTE approved?

Yes, the M.Tech Thermal Engineering program at Sigma University is AICTE and UGC-approved. It follows the Choice-Based Credit System (CBCS) and maintains academic quality standards expected from top M.Tech in thermal engineering colleges.

Are scholarships available at Sigma University?

Yes, Sigma offers scholarships to meritorious students, reserved categories, and those from economically weaker sections. Additionally, the university guides loan assistance and EMI-based fee payment options.

What are the career prospects after this M.Tech course?

Graduates can take on roles in design, analysis, and R&D as Thermal Analysts, Energy Consultants, or HVAC Engineers. The M.Tech thermal engineering qualification opens doors across power plants, automotive, aerospace, and renewable energy sectors.

Can I pursue a Ph.D. after completing this course?

Yes, students who complete their master’s in thermal engineering are eligible for Ph.D. programs in India and abroad. The final semester dissertation builds research capabilities essential for higher academic pursuits.

Are internships or live projects included?

Yes, the curriculum includes live projects, industrial internships, and on-site visits to thermal power stations and R&D labs. These experiences help students bridge theory and application, a key part of their thermal engineering degree training.

M.Tech in Thermal Engineering — Apply now!

Take the Next Step Toward a Career in Thermal Innovation with Sigma University
Step into the world of cutting-edge energy solutions with an M.Tech in Thermal Engineering at Sigma University. Gain access to state-of-the-art labs, industry-aligned curriculum, top faculty, and exceptional placement support. Whether you’re pursuing innovation, industry roles, or research, Sigma is your launchpad. Apply now, schedule a campus visit, or talk to an admission counselor today.

About the M.Tech in Thermal Engineering Program

The M.Tech in Thermal Engineering program delves into the principles and practices of heat transfer, fluid dynamics, and energy systems. Through a comprehensive curriculum, students gain expertise in designing, analyzing, and optimizing thermal systems used in various industries such as power generation, HVAC, aerospace, and manufacturing. With a focus on sustainable energy solutions and emerging technologies, graduates are equipped to address contemporary challenges in thermal engineering. The program combines theoretical knowledge with practical applications, preparing students for rewarding careers in research, development, design, and consultancy roles in the thermal engineering domain.

Affiliation

Sigma University

Approvals

AICTE, New Delhi & UGC, New Delhi

Duration

02 Years

Eligibility for Admission

• BE/BTech in Computer Science or Artificial Intelligence with 50% aggregate
• MTech in AI entrance exam includes GATE, IPU CET, IIT JAM, and TANCET.

Admission Schedule

As per the directives of Admission Committee. Usually from May to October every year.

How to Apply?

Visit: https://admissions.sigmauniversity.ac.in/
Call: +91 7567176000

Start Date

July 2025

College / Campus

Faculty of Engineering & Technology (Sigma Institute of Engineering), Sigma University Vadodara.

Shifts (Working hours)

10: 00 am to 05:00 pm

Curriculum

Sem	Course Code	Course Name	Theory (T)	Tutorial (T)	Practical (P)	Hrs	Credit	Detail Syllabus
I	2MRM01	Research Methodology & IPR	2	0	0	2	2	View Pdf
I	1MTE01	Advanced Heat Transfer & Mass Transfer	4	0	2	6	5	View Pdf
I	1MTE02	Advanced Thermodynamics & Combustion Engineering	4	2	0	6	5	View Pdf
I	1MTE03	Renewable Enegry Engineering (PE – I)	1.5	0	1	2.5	2	View Pdf
I	1MTE04	Advanced Thermal Power & Nuclear Plant Engineering (PE – I)	1.5	0	1	2.5	2	View Pdf
I	1MTE05	Advanced I C Engine & Alternate Fuels (PE – II)	1.5	0	1	2.5	2	View Pdf
I	1MTE06	Cryogenic Engineering (PE – II)	1.5	0	1	2.5	2	View Pdf
			16	2	6	24	20

Sem	Course Code	Course Name	Theory (T)	Practical (P)	Hrs	Credit	Detail Syllabus
II	2MTE01	Design of Heat Exchanger	3	2	5	4	View Pdf
II	2MTE02	Advanced Fluid Machanics	3	2	5	4	View Pdf
II	2MTE03	Project Preliminary	0	10	10	5	View Pdf
II	2MTE04	Advanced Refrigeration Engineering (PE – III)	1.5	1	2.5	2	View Pdf
II	2MTE05	Design and Optimization of Thermal Systems (PE – III)	1.5	1	2.5	2	View Pdf
II	2MTE06	Steam and Gas Turbine (PE – IV)	1.5	0	1.5	1.5	View Pdf
II	2MTE06	Advanced Air conditioning Engineering (PE – IV)	1.5	0	1.5	1.5	View Pdf
			12	16	28	20