Gas Power Cycle In Engineering Thermodynamics by PK NAG (Chapter-13)

Saurabh Kumar Gupta

Mechanical Engineer

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Hindi

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320 Min

This course format through pre-recorded video. You can buy and watch it to learn at any time.

₹ 199

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Why do you enroll

This course is based on PK Nag's Book Chapter 13, to excel in the GATE (Graduate Aptitude Test in Engineering) examination and to secure good marks in other engineering exams. Thermodynamics is a crucial subject in the engineering syllabus, and mastering the concepts and applications presented in Chapter 13 is essential to achieving a high score. By taking this course, individuals can gain a comprehensive understanding of thermodynamic principles, practice solving problems, and develop strategies to tackle complex questions. With a strong foundation in thermodynamics, students can confidently approach the GATE exam and improve their chances of securing admission to top engineering programs or landing coveted jobs at top PSUs.

Master the fundamentals of thermodynamics and unlock the secrets of energy conversion, efficiency, and optimization—enroll now and become a thermal energy expert!

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Key topics covered

Introduction to Gas Power Cycle
Otto Cycle
Diesel Cycle
Dual Cycle
Comparison of Otto, Diesel or Dual
Numerical on Otto Cycle
Numerical on Diesel Cycle
Numerical on Dual Cycle
Brayton Cycle
Actual Brayton Cycle Analysis
Effect of Pressure Ratio
Regeneration on Brayton Cycle
Reheating on Brayton Cycle

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Course Details

Explore the fundamental principles and applications of gas power cycles, a crucial aspect of thermodynamics. This course delves into the analysis and design of gas power cycles, including internal combustion engines, gas turbines, and refrigeration systems

Learning Outcomes

- Understand the principles and applications of gas power cycles

- Analyze and design air-standard and actual cycles

- Calculate cycle efficiency, work output, and heat transfer

- Recognize the importance of gas power cycles in real-world applications

- Apply optimization techniques to improve cycle performance