Online/ e-LMS
Self Paced
Moderate
1 Month
About
The program covers fundamental to advanced concepts in heat transfer and thermal engineering, including conduction, convection, and radiation, along with real-world applications in energy systems, electronics cooling, and manufacturing processes. Through hands-on projects, participants will gain insights into thermal analysis, simulation, and the design of high-performance thermal systems.
Aim
This program aims to develop advanced understanding and practical skills in heat transfer and thermal engineering, essential for designing efficient thermal systems. Participants will learn theoretical concepts and industry applications, focusing on solving complex thermal challenges across multiple engineering fields.
Program Objectives
- Gain a comprehensive understanding of heat transfer principles.
- Develop practical skills in designing and analyzing thermal systems.
- Master simulation tools for thermal analysis and optimization.
- Learn to solve complex thermal challenges in various industries.
- Complete a capstone project to apply thermal engineering skills to real-world applications.
Program Structure
Module 1: Fundamentals of Heat Transfer
- Overview: This introductory module covers the principles of heat transfer, providing a foundation in conduction, convection, and radiation.
- Topics Covered:
- Basics of heat transfer and its modes
- Thermal conductivity and heat flux
- Applications of conduction, convection, and radiation
- Project: Conduct a thermal analysis to determine heat loss in a simple system, focusing on conduction and insulation.
Module 2: Advanced Conduction and Thermal Resistance
- Overview: Explore advanced conduction concepts, including thermal resistance, composite walls, and heat transfer in multilayered systems.
- Topics Covered:
- One-dimensional and multidimensional conduction
- Thermal resistance in composite systems
- Heat transfer in multilayer materials
- Project: Calculate thermal resistance and optimize material selection for a heat exchanger, minimizing heat loss.
Module 3: Convection and Heat Exchangers
- Overview: This module covers the principles of convection, fluid dynamics, and their applications in designing efficient heat exchangers.
- Topics Covered:
- Forced and natural convection
- Fluid dynamics and heat transfer in liquids and gases
- Heat exchanger design and performance optimization
- Project: Design a basic heat exchanger for an industrial process, focusing on maximizing heat transfer efficiency.
Module 4: Radiation and Thermal System Applications
- Overview: Dive into thermal radiation and its applications in designing and optimizing thermal systems across industries.
- Topics Covered:
- Thermal radiation principles and emissivity
- Radiation heat transfer in real-world systems
- Applications in power generation, aerospace, and automotive
- Project: Analyze radiation effects on a high-temperature component, designing for optimal thermal efficiency.
Module 5: Capstone Project in Heat Transfer and Thermal Engineering
- Overview: The capstone project allows you to apply your knowledge in a real-world scenario by designing and optimizing a thermal system.
- Project Options:
- Develop a thermal management system for an HVAC unit, focusing on energy efficiency and heat regulation.
- Design a cooling system for a power plant component, optimizing for high temperature and pressure conditions.
- Create a heat exchanger for aerospace applications, addressing heat dissipation and insulation requirements.
- Outcome: Demonstrate your ability to solve complex thermal engineering problems, from design to optimization.
Participant’s Eligibility
- Mechanical Engineers: Interested in specializing in thermal engineering for energy systems and industrial applications.
- Engineering Students and Graduates: Seeking to build expertise in heat transfer and thermal system design.
- Professionals in HVAC, Power Generation, and Aerospace: Looking to apply heat transfer principles for efficient thermal management.
Program Outcomes
- Expertise in heat transfer concepts and thermal engineering applications.
- Proficiency in using computational tools for thermal system simulation.
- Ability to design and optimize efficient thermal systems.
- Practical experience in solving thermal challenges through hands-on projects.
Fee Structure
Standard Fee: INR 9,998 USD 298
Discounted Fee: INR 4999 USD 149
We are excited to announce that we now accept payments in over 20 global currencies, in addition to USD. Check out our list to see if your preferred currency is supported. Enjoy the convenience and flexibility of paying in your local currency!
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Key Takeaways
Program Assessment
Certification to this program will be based on the evaluation of following assignment (s)/ examinations:
Exam | Weightage |
---|---|
Mid Term Assignments | 50 % |
Project Report Submission (Includes Mandatory Paper Publication) | 50 % |
To study the printed/online course material, submit and clear, the mid term assignments, project work/research study (in completion of project work/research study, a final report must be submitted) and the online examination, you are allotted a 1-month period. You will be awarded a certificate, only after successful completion/ and clearance of all the aforesaid assignment(s) and examinations.
Program Deliverables
- Access to e-LMS
- Real Time Project for Dissertation
- Project Guidance
- Paper Publication Opportunity
- Self Assessment
- Final Examination
- e-Certification
- e-Marksheet
Future Career Prospects
- Thermal Engineer
- Heat Transfer Specialist
- HVAC Engineer
- Energy Systems Engineer
- Electronics Cooling Specialist
- R&D Engineer in Thermal Systems
Job Opportunities
- HVAC companies and energy industries needing thermal system optimization.
- Electronics and manufacturing sectors for thermal management roles.
- Research institutions focused on advanced thermal engineering.
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