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M-TECH in Thermal Engineering at Maulana Azad National Institute of Technology, Bhopal
Bhopal, Madhya Pradesh
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About the Specialization
What is Thermal Engineering at Maulana Azad National Institute of Technology, Bhopal Bhopal?
This Thermal Engineering program at Maulana Azad National Institute of Technology Bhopal focuses on advanced concepts in thermodynamics, fluid mechanics, and heat transfer. It addresses the critical demand for skilled thermal engineers in India''''s energy sector, emphasizing efficient energy conversion, renewable technologies, and thermal system design, crucial for sustainable industrial growth.
Who Should Apply?
This program is ideal for mechanical engineering graduates seeking specialized knowledge in energy and thermal systems. It also suits working professionals aiming to upgrade skills in areas like power generation, HVAC, and energy conservation. Individuals passionate about sustainable energy solutions and R&D in thermal sciences will find this course highly rewarding.
Why Choose This Course?
Graduates of this program can expect promising career paths in India''''s energy, manufacturing, and HVAC industries. Roles include R&D engineer, thermal design engineer, energy auditor, and project manager, with entry-level salaries typically ranging from INR 5-8 LPA and significant growth potential in PSUs, MNCs, and consultancies.
Student Success Practices
Foundation Stage
Master Core Thermal Concepts with Simulation Tools- (Semester 1)
Focus on building a strong foundation in advanced thermodynamics, fluid mechanics, and heat transfer. Utilize simulation software like Ansys Fluent/CFX or OpenFOAM, available in MANIT labs, to solve complex engineering problems and visualize phenomena.
Tools & Resources
Textbooks by Cengel & Boles, Incropera & DeWitt, Ansys/OpenFOAM tutorials, NPTEL courses on advanced thermal subjects
Career Connection
Develops strong analytical and computational skills, highly valued for R&D, design, and simulation engineer roles in core thermal industries.
Cultivate Research Acumen through Literature Review- (Semester 1)
For each core subject, go beyond textbooks to read 2-3 recent research papers from reputed journals (e.g., ASME, Elsevier) related to the topics. Start identifying potential research areas or gaps for your dissertation.
Tools & Resources
MANIT digital library access (Scopus, Web of Science, ScienceDirect), Google Scholar, Mendeley/Zotero for referencing
Career Connection
Essential for dissertation work, R&D roles, and contributes to critical thinking and scientific writing skills.
Active Participation in Seminars and Peer Learning- (Semester 1)
Actively prepare for and present in Seminar I, focusing on comprehensive literature review and clear communication. Form study groups to discuss complex topics and clarify doubts, leveraging collective understanding.
Tools & Resources
Departmental seminar series, Online collaboration tools, Peer study groups
Career Connection
Enhances presentation skills, fosters collaborative problem-solving, and strengthens understanding of diverse thermal engineering applications.
Intermediate Stage
Deep Dive into Electives and Practical Application- (Semester 2)
Choose electives strategically based on career interests (e.g., HVAC, IC Engines, Renewable Energy). Apply theoretical knowledge from core and elective subjects to solve practical problems in Thermal Engineering Lab II. Focus on real-world system analysis and design.
Tools & Resources
Lab manuals, Design handbooks (e.g., ASHRAE Handbook), Industry codes and standards
Career Connection
Builds specialized technical expertise, making graduates more attractive for specific industry roles related to their chosen electives.
Undertake Industry-Relevant Mini Projects- (Semester 2)
Identify a thermal engineering problem in a local industry (e.g., a manufacturing unit, hospital HVAC system) or collaborate with faculty on a relevant project. Aim to propose a practical solution or optimization, possibly leveraging simulation tools.
Tools & Resources
Local industrial contacts, MANIT incubation center, Faculty project guidance
Career Connection
Provides hands-on industry experience, demonstrates problem-solving capabilities, and can lead to networking opportunities or even pre-placement offers.
Enhance Professional Communication & Presentation Skills- (Semester 2)
Continuously refine technical writing and presentation skills through Seminar II. Seek feedback from faculty and peers, focusing on clarity, conciseness, and impact. Participate in technical paper writing workshops.
Tools & Resources
IEEE/ASME paper templates, Grammarly, Presentation software
Career Connection
Crucial for communicating research findings, preparing technical reports, and excelling in job interviews and corporate environments.
Advanced Stage
Strategic Dissertation for Industry Impact- (Semester 3-4)
Choose a dissertation topic with strong industrial relevance or significant research potential. Aim to publish a research paper in a peer-reviewed journal or present at a national/international conference based on your dissertation work.
Tools & Resources
MANIT research grants, Faculty research groups, Conference databases (Scopus, WoS)
Career Connection
High-quality research output enhances academic profile for PhD admissions and demonstrates advanced problem-solving skills for R&D positions in industry.
Leverage Internships and Industrial Training- (Semester 3 (Concurrent with Dissertation))
Actively seek and complete internships or industrial training during breaks or as part of dissertation work in relevant Indian companies (e.g., power plants, automotive R&D, HVAC firms).
Tools & Resources
MANIT placement cell, Personal networking, Online job portals
Career Connection
Provides invaluable real-world exposure, builds professional contacts, and often leads directly to job offers upon graduation.
Comprehensive Placement Preparation- (Semester 4 (Leading up to placements))
Prepare for placements by revising core thermal engineering concepts, practicing quantitative aptitude, logical reasoning, and communication skills. Attend mock interviews and group discussions organized by the placement cell.
Tools & Resources
Placement cell resources, Online aptitude platforms (e.g., IndiaBix, PrepInsta), Company-specific previous year papers
Career Connection
Directly prepares students for the recruitment process, maximizing their chances of securing desirable placements in top Indian engineering companies and PSUs.
Program Structure and Curriculum
Eligibility:
- B.E./B.Tech. in Mechanical Engineering or equivalent discipline with minimum 6.5 CGPA or 60% marks and a valid GATE score in ME. Final selection based on GATE score and/or interview.
Duration: 2 years (4 semesters)
Credits: 76 Credits
Assessment: Internal: 50% (for theory courses, includes Mid-Term Test and Internal Assessment), External: 50% (for theory courses, End-Term Examination)
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MTE-101 | Advanced Engineering Thermodynamics | Core | 4 | Advanced availability analysis, Exergy analysis for reactive and non-reactive systems, Chemical reaction thermodynamics and equilibrium, High temperature gas dynamics, Irreversibility and Second Law efficiency |
| MTE-102 | Advanced Fluid Mechanics | Core | 4 | Conservation equations for fluid flow, Viscous flow solutions, Boundary layer theory and its applications, Compressible flow fundamentals, Turbulent flow modeling |
| MTE-103 | Advanced Heat and Mass Transfer | Core | 4 | Unsteady heat conduction, Convective heat transfer principles, Radiation heat transfer in enclosures, Boiling and condensation phenomena, Mass transfer in various phases |
| MTE-104 | Research Methodology and IPR | Core | 3 | Research problem formulation, Data collection, analysis and interpretation, Research ethics and plagiarism, Technical report writing, Intellectual property rights and patenting |
| MTE-105 | Applied Computational Fluid Dynamics | Core | 3 | Governing equations for fluid flow and heat transfer, Discretization techniques: Finite Difference and Finite Volume methods, Grid generation and quality, Solution algorithms (SIMPLE, PISO), Introduction to CFD software (e.g., ANSYS Fluent, OpenFOAM) |
| MTE-106 | Thermal Engineering Lab – I | Lab | 2 | Experiments on advanced thermodynamics cycles, Heat transfer phenomena measurement, Fluid flow characteristics, Performance evaluation of thermal systems, Data acquisition and analysis |
| MTE-107 | Seminar – I | Project | 2 | Extensive literature review on current thermal engineering topics, Preparation of technical reports, Development of presentation skills, Identification of research gaps, Critical analysis of published research |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MTE-201 | Design of Thermal Systems | Core | 4 | Thermal system modeling and simulation, Design methodology and optimization techniques, Heat exchanger design and selection, Piping and ducting system design, Integration of components in thermal systems |
| MTE-202 | Advanced Power Plant Engineering | Core | 4 | Conventional and supercritical thermal power plants, Nuclear power plant cycles and safety, Combined cycle power plants, Environmental impact and emission control, Power plant performance optimization |
| MTE-203 | Renewable Energy Sources | Core | 4 | Solar energy conversion technologies, Wind energy systems and aerodynamics, Biomass conversion processes, Geothermal and ocean energy systems, Hybrid renewable energy systems |
| MTE-2XX | Program Elective-I (e.g., Refrigeration and Air Conditioning) | Elective | 3 | Vapour compression refrigeration cycles, Vapour absorption refrigeration systems, Psychrometrics and comfort conditions, Cooling load calculations, HVAC system design and components |
| MTE-2XX | Program Elective-II (e.g., Internal Combustion Engines) | Elective | 3 | Thermodynamics of engine cycles, Combustion in SI and CI engines, Fuel injection systems, Engine emissions and control technologies, Engine performance and testing |
| MTE-204 | Thermal Engineering Lab – II | Lab | 2 | Experiments on refrigeration and air conditioning systems, Performance analysis of IC engines, Renewable energy system components testing, Heat exchanger performance evaluation, Advanced thermal measurements |
| MTE-205 | Seminar – II | Project | 2 | Advanced topic presentation and discussion, Development of research proposals, Critical analysis of experimental data, Refinement of communication skills, Preparation for dissertation work |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MTE-3XX | Program Elective-III (e.g., Cryogenic Engineering) | Elective | 3 | Gas liquefaction cycles (Linde, Claude), Cryogenic refrigeration techniques, Properties of materials at low temperatures, Cryogenic insulation and storage, Applications of cryogenics in various fields |
| MTE-3XX | Open Elective-I | Elective | 3 | |
| MTE-301 | Dissertation – I | Project | 10 | Detailed literature survey, Problem identification and objective definition, Methodology development, Experimental/Numerical setup design, Initial data collection and analysis |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MTE-401 | Dissertation – II | Project | 16 | Advanced experimental/numerical analysis, Result interpretation and discussion, Thesis writing and formatting, Preparation for final presentation and viva-voce, Contribution to scientific knowledge |
