Online/ e-LMS
Self Paced
Moderate
1 Month
About
The Advanced Thermodynamics & Energy Systems Program combines theoretical foundations with hands-on applications in thermodynamics and energy systems. Participants will study the principles of energy transformation, sustainable energy sources, and system efficiency while gaining practical experience in analyzing and optimizing various energy systems. The program covers topics from advanced thermodynamic cycles to renewable energy systems, preparing participants to address energy efficiency and environmental sustainability challenges.
Aim
This program offers an in-depth exploration of advanced thermodynamic principles and energy systems, equipping participants with the analytical and practical skills necessary to solve complex energy-related challenges. By focusing on sustainable and efficient energy solutions, this program prepares professionals for careers in energy system design, optimization, and environmental engineering.
Program Objectives
- Understand advanced thermodynamic concepts and their applications in energy systems.
- Develop skills in analyzing and optimizing thermodynamic cycles and energy efficiency.
- Gain expertise in renewable energy systems and environmental sustainability.
- Learn to assess environmental impact and integrate sustainable energy practices.
- Complete a capstone project in energy system design and optimization.
Program Structure
Module 1: Fundamentals of Thermodynamics and Energy Systems
- Overview: This introductory module covers fundamental thermodynamic principles, focusing on energy, entropy, and thermodynamic laws.
- Topics Covered:
- The first and second laws of thermodynamics
- Entropy and energy conservation principles
- Basic thermodynamic processes and systems
- Project: Analyze an ideal thermodynamic cycle, such as the Carnot or Rankine cycle, and calculate efficiency improvements.
Module 2: Thermodynamic Cycles in Power and Refrigeration
- Overview: Explore thermodynamic cycles applied to power generation and refrigeration, examining efficiencies and practical applications.
- Topics Covered:
- Power cycles (Brayton, Rankine, and Otto cycles)
- Refrigeration cycles and heat pumps
- Efficiency improvements in cycle design
- Project: Model a refrigeration cycle and propose optimizations for increased energy efficiency in cooling systems.
Module 3: Heat Transfer and Energy Efficiency
- Overview: Learn about heat transfer mechanisms and techniques to enhance energy efficiency in thermal systems.
- Topics Covered:
- Conduction, convection, and radiation
- Heat exchangers and thermal insulation
- Improving energy efficiency in thermal systems
- Project: Design a heat exchanger for an industrial process, focusing on optimizing heat transfer and reducing energy consumption.
Module 4: Sustainable Energy and Renewable Systems
- Overview: Understand sustainable energy concepts and renewable technologies, including solar, wind, and bioenergy applications.
- Topics Covered:
- Renewable energy systems and integration
- Energy storage and sustainable infrastructure
- Environmental impact of energy systems
- Project: Develop a sustainable energy solution integrating renewable sources to reduce the environmental impact of an industrial facility.
Module 5: Capstone Project in Thermodynamics and Energy Systems
- Overview: Apply your skills in a capstone project focused on optimizing or designing a thermodynamic system for improved efficiency and sustainability.
- Project Options:
- Optimize an HVAC system for energy efficiency in a commercial building.
- Design a hybrid energy system that integrates solar and wind power with battery storage.
- Model a power generation cycle for maximum thermal efficiency and minimal emissions.
- Outcome: Complete a comprehensive project demonstrating your ability to analyze, optimize, and design thermodynamic and energy systems.
Participant’s Eligibility
- Mechanical and Energy Engineers: Interested in specializing in thermodynamics and energy systems optimization.
- Engineering Students and Graduates: Seeking advanced knowledge in thermodynamic cycles and energy efficiency.
- Professionals in Power Generation, HVAC, and Sustainable Energy: Looking to improve energy efficiency and integrate sustainable practices in energy systems.
Program Outcomes
- Advanced knowledge of thermodynamics and energy system optimization.
- Proficiency in renewable energy and environmental impact assessments.
- Practical experience in designing efficient and sustainable energy systems.
- Expertise in analyzing and improving thermodynamic cycles for various applications.
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
- Energy Systems Engineer
- Renewable Energy Consultant
- Thermal Systems Analyst
- Power Plant Engineer
- Sustainability Specialist
- Environmental Impact Analyst
Job Opportunities
- Power generation companies seeking sustainable energy solutions.
- Renewable energy firms requiring expertise in thermodynamics and energy systems.
- Industries focused on energy efficiency and environmental impact assessments.
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