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M-TECH in Thermal Engineering at Aditya Institute of Technology and Management
Srikakulam, Andhra Pradesh
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About the Specialization
What is Thermal Engineering at Aditya Institute of Technology and Management Srikakulam?
This Thermal Engineering program at Aditya Institute of Technology and Management focuses on advanced concepts in thermodynamics, fluid mechanics, heat transfer, and energy systems. With India''''s growing demand for sustainable energy solutions and efficient industrial processes, this specialization addresses critical needs in power generation, renewable energy, and thermal management. The program emphasizes both theoretical foundations and practical applications relevant to the Indian manufacturing and energy sectors.
Who Should Apply?
This program is ideal for mechanical engineering graduates seeking entry into the energy, power, and manufacturing industries. It also caters to working professionals aiming to enhance their skills in thermal system design, energy auditing, or renewable technologies. Candidates with a strong aptitude for analytical problem-solving and a desire to contribute to India''''s energy self-reliance and environmental sustainability will find this specialization particularly rewarding.
Why Choose This Course?
Graduates of this program can expect to pursue rewarding careers as thermal design engineers, energy auditors, R&D specialists, or project managers in power plants, HVAC, automotive, and renewable energy sectors across India. Entry-level salaries typically range from INR 4-7 LPA, with experienced professionals earning upwards of INR 10-20 LPA. The program prepares students for roles in both public sector undertakings (PSUs) and private companies, contributing to India''''s technological advancement.
Student Success Practices
Foundation Stage
Strengthen Core Engineering Fundamentals- (Semester 1-2)
Dedicate significant time to thoroughly grasp advanced concepts in thermodynamics, fluid mechanics, and heat transfer. Utilize online platforms for supplemental learning and problem-solving beyond classroom lectures.
Tools & Resources
NPTEL courses on advanced thermal subjects, Books by Incropera, Cengel, and Fox, Online problem-solving communities like StackExchange, Peer study groups
Career Connection
A strong foundation is crucial for excelling in technical interviews for R&D roles and for designing complex thermal systems in industries like power generation and HVAC.
Develop Computational and Analytical Skills- (Semester 1-2)
Actively engage in the Thermal Engineering Lab-I and II, focusing on understanding experimental setups and data analysis. Simultaneously, get hands-on experience with engineering software like MATLAB for simulations and basic CFD tools.
Tools & Resources
MATLAB, ANSYS Fluent (basic tutorials), OpenFOAM (for open-source exploration), Lab manuals, University computing facilities
Career Connection
Proficiency in computational tools is highly valued for design, analysis, and optimization roles in automotive, aerospace, and energy sectors, enabling graduates to quickly adapt to industry demands.
Engage in Research Methodology and Paper Writing- (Semester 1-2)
Take the Research Methodology & IPR and English for Research Paper Writing courses seriously, understanding their importance for academic and professional growth. Start reading research papers in your areas of interest and practice summarizing them.
Tools & Resources
Google Scholar, Scopus, Mendeley (for referencing), University library resources, Guidance from faculty advisors
Career Connection
This practice cultivates critical thinking, literature review skills, and effective communication, essential for higher studies, R&D positions, and presenting technical reports in professional settings.
Intermediate Stage
Deep Dive into Specialization through Electives and Mini Project- (Semester 3)
Carefully choose electives based on your career interests and engage deeply in the Mini Project. Identify a real-world thermal engineering problem, conduct thorough research, and propose innovative solutions.
Tools & Resources
Industry reports, Technical journals, Project guidance from faculty, Specialized software for chosen elective areas (e.g., TRNSYS for solar, Aspen Plus for process)
Career Connection
This focused approach allows for skill specialization, making you a desirable candidate for specific roles in renewable energy, thermal system design, or energy management, showcasing practical problem-solving abilities.
Participate in Workshops and Industry Interactions- (Semester 3)
Attend technical workshops, seminars, and guest lectures organized by the department or industry bodies. Network with professionals and understand current industry trends and challenges in thermal engineering.
Tools & Resources
LinkedIn, Professional bodies like Institution of Engineers India (IEI), University career services, Industry expos and conferences
Career Connection
Builds professional network, exposes students to industry expectations, and identifies potential internship or placement opportunities, enhancing their market readiness.
Initiate Literature Review for Dissertation Topic- (Semester 3)
Start identifying potential dissertation topics by reviewing recent research papers and consulting with faculty. Begin a comprehensive literature survey to understand existing work and identify research gaps in your chosen area.
Tools & Resources
Research databases, Faculty expertise, Online academic libraries, EndNote/Zotero for bibliography management
Career Connection
Lays the groundwork for a strong thesis, which is a key credential for R&D positions, Ph.D. admissions, and demonstrating expertise in a specific domain.
Advanced Stage
Excel in Project Work and Thesis Development- (Semester 4)
Dedicate full effort to the Dissertation Part-B. Ensure rigorous methodology, meticulous data collection, robust analysis, and clear, concise thesis writing. Aim for publishable quality research.
Tools & Resources
Advanced simulation software, Experimental facilities, Statistical analysis tools, Academic writing guides, Continuous feedback from thesis supervisor
Career Connection
A high-quality thesis is a strong differentiator for R&D roles, academic positions, and demonstrates advanced problem-solving, analytical, and technical writing skills to potential employers.
Focus on Placement and Interview Preparation- (Semester 4)
Actively participate in campus placement drives. Prepare a compelling resume highlighting project work, skills, and academic achievements. Practice technical and HR interview questions specifically tailored to thermal engineering roles.
Tools & Resources
University placement cell, Mock interview sessions, Resume building workshops, Company-specific technical interview guides, Glassdoor
Career Connection
Directly leads to securing desirable positions in top companies. Strong preparation increases confidence and performance in competitive job markets.
Cultivate Professional Ethics and Continuous Learning- (Semester 4)
Understand the ethical considerations in engineering research and practice. Commit to lifelong learning by staying updated with emerging technologies and industry standards in thermal engineering through journals, online courses, and professional development.
Tools & Resources
Professional engineering codes of ethics, Industry forums, Online learning platforms (Coursera, edX), Professional society memberships (e.g., ISHRAE, ASHRAE)
Career Connection
Essential for long-term career growth, leadership roles, and maintaining relevance in a rapidly evolving field, ensuring ethical and responsible professional conduct.
Program Structure and Curriculum
Eligibility:
- B.Tech. / B.E. in Mechanical Engineering, Production Engineering, Industrial Engineering, Mechatronics and Automobile Engineering or equivalent with 50% aggregate marks (45% for reserved category).
Duration: 4 semesters / 2 years
Credits: 68 Credits
Assessment: Internal: 40% (for theory/practical subjects), External: 60% (for theory/practical subjects)
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 20PTE101 | Applied Thermodynamics | Core | 3 | First Law of Thermodynamics, Second Law of Thermodynamics, Availability and Irreversibility, Non-Reactive Gas Mixtures, Reactive Gas Mixtures and Combustion |
| 20PTE102 | Advanced Fluid Mechanics | Core | 3 | Introduction and Basic Concepts, Governing Equations, Inviscid Incompressible Flow, Viscous Incompressible Flow, Boundary Layer Theory |
| 20PTE103 | Advanced Heat Transfer | Core | 3 | Conduction Heat Transfer, Convection Heat Transfer, Phase Change Heat Transfer, Radiation Heat Transfer, Heat Exchangers |
| 20PTE104 | Elective-I (Choices: Power Plant Engineering and Control / Design of Thermal Systems / Advanced Engineering Materials) | Elective | 3 | Power Plant Engineering: Hydroelectric, Thermal, Nuclear, Renewable Plants, Instrumentation, Design of Thermal Systems: Modeling, Optimization, Heat Exchangers, Turbomachines, Storage, Advanced Engineering Materials: Metals, Ceramics, Polymers, Composites, Smart Materials |
| 20PTE105 | Elective-II (Choices: Thermal and Nuclear Power Plant Design / Refrigeration and Air Conditioning / Computational Fluid Dynamics) | Elective | 3 | Thermal & Nuclear: Power Cycles, Boilers, Turbines, Nuclear Reactor Design, Waste Management, Refrigeration & AC: Vapour Compression, Absorption Systems, Refrigerants, Psychrometry, Human Comfort, CFD: Basic Concepts, Governing Equations, Discretization Methods, Solution Algorithms, Grid Generation |
| 20PEN106 | Research Methodology & IPR | Mandatory Non-Credit Course | 2 | Introduction to Research Methodology, Research Problem and Design, Data Collection and Analysis, Interpretation and Report Writing, Intellectual Property Rights |
| 20PTE107 | Thermal Engineering Lab-I | Lab | 2 | Performance analysis of IC engines, Heat transfer experiments (conduction, convection, radiation), Refrigeration and air conditioning experiments, Fluid flow measurements and characteristics |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 20PTE201 | Advanced IC Engines | Core | 3 | Engine Classification and Cycles, Fuel Supply and Ignition Systems, Combustion in SI Engines, Combustion in CI Engines, Emissions and Control |
| 20PTE202 | Renewable Energy Technologies | Core | 3 | Solar Energy Systems, Wind Energy Systems, Bioenergy Conversion, Geothermal and Ocean Energy, Energy Storage Technologies |
| 20PTE203 | Energy Conservation and Management | Core | 3 | Global Energy Scenario, Energy Auditing and Instrumentation, Energy Economics and Financing, Demand Side Management, Waste Heat Recovery and Utilization |
| 20PTE204 | Elective-III (Choices: Advanced Engineering Thermodynamics / Cryogenic Engineering / Finite Element Methods) | Elective | 3 | Adv. Thermodynamics: Exergy Analysis, Chemical, Combustion, Phase Equilibrium, Irreversible, Cryogenic Engineering: Principles, Gas Liquefaction, Cryogenic Refrigeration, Insulation, Applications, Finite Element Methods: Basic Concepts, Element Formulations, Isoparametric Elements, Heat Transfer, Fluid Flow |
| 20PTE205 | Elective-IV (Choices: Gas Dynamics and Jet Propulsion / Alternative Fuels for IC Engines / Waste to Energy) | Elective | 3 | Gas Dynamics & Jet Propulsion: Isentropic Flow, Shocks, Fanno/Rayleigh Flows, Jet Engines, Rocket Propulsion, Alternative Fuels: Alcohols, Biodiesel, Hydrogen, CNG/LPG, Fuel Cells for IC Engines, Waste to Energy: Waste Characteristics, Thermal & Biochemical Conversion, Waste Heat Recovery, Environmental Impact |
| 20PEN206 | English for Research Paper Writing | Mandatory Non-Credit Course | 2 | Planning and Structuring Research Papers, Abstract and Introduction Writing, Literature Review and Methods Section, Results, Discussion and Conclusion, Referencing and Plagiarism |
| 20PTE207 | Thermal Engineering Lab-II | Lab | 2 | Boiler performance testing and analysis, Renewable energy system experiments (solar, wind), Advanced heat transfer simulations using software, Computational Fluid Dynamics (CFD) software application |
| 20PTE208 | Mini Project with Seminar | Project | 2 | Problem Identification and Scope Definition, Literature Survey and Gap Analysis, Methodology Development and Planning, Data Collection/Simulation and Analysis, Report Writing and Presentation |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 20PTE301 | Open Elective | Open Elective | 3 | Interdisciplinary topics from other departments, Management principles for engineers, Advanced computing and data science applications, Environmental science and sustainable development |
| 20PTE302 | Dissertation Part-A / Project Work Part-A | Project | 10 | Problem Definition and Research Question Formulation, Comprehensive Literature Review, Objective Formulation and Methodology Development, Experimental Setup Design or Numerical Model Development, Preliminary Data Collection/Simulation and Analysis |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 20PTE401 | Dissertation Part-B / Project Work Part-B | Project | 18 | Detailed Experimentation or Advanced Simulation, Result Analysis, Interpretation and Discussion, Thesis Writing and Documentation, Scientific Report Preparation and Formatting, Final Presentation and Viva Voce Examination |
