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UNIT 2 | THERMAL ENGINEERING & GAS DYNAMICS

2.13 Problem 1 based on Modified Rankine and Reheat Cycle

Welcome to Unit II of our "Thermal Engineering and Gas Dynamics" course - an exciting journey into the heart of Vapour Cycles. In this unit, we'll unravel the complexities of thermodynamic cycles, exploring their classifications, efficiency calculations, and innovative applications. Unit II is your key to unlocking advanced knowledge in Thermal Engineering. Let's dive in and explore the fascinating world of Vapour Cycles together!

2.1 Introduction to Vapour Cycles:
Unit II kicks off with an exploration into Vapour Cycles, crucial systems in thermal engineering. Learn about their classification and the fundamental elements that make up steam power plants.

2.2 Classification of Thermodynamic Cycles:
Dive into the various classifications of thermodynamic cycles, gaining insights into their diverse applications and functionalities.

2.3 Basic Elements of Steam Power Plant:
Explore the basic elements integral to the operation of steam power plants, unraveling the intricate machinery that drives these systems.

2.4 Terms Associated with Vapour Power Cycle:
Acquaint yourself with the specific terms associated with vapour power cycles, laying the groundwork for a comprehensive understanding of subsequent topics.

2.5 Carnot Cycle & Its Efficiency calculation:
Delve into the theoretical underpinnings of the Carnot Cycle and master the art of calculating its efficiency. Uncover the limitations inherent in this influential cycle.

2.6 Rankine Cycle & Its Efficiency Calculation:
Navigate through the complexities of the Rankine Cycle, understanding its efficiency calculation. Explore methods to enhance efficiency, deviations from theoretical ideals, and the impact of operating parameters.

2.7 Comparison of Rankine and Carnot Cycle:
Conduct a comparative analysis of the Rankine and Carnot Cycles, discerning their strengths, weaknesses, and real-world applications.

2.8 How Carnotise the Rankine Cycle By Regenerative Heating:
Learn the strategic application of regenerative heating to "Carnotise" the Rankine Cycle, optimizing its performance through innovative techniques.

2.9 Requirements of an Ideal Working Fluid For Vapour Power Cycles:
Understand the criteria for an ideal working fluid in vapour power cycles, crucial for maximizing efficiency and overall system performance.

2.10 Numerical based on Carnot and Rankine Cycle:
Apply your knowledge to solve numerical problems related to Carnot and Rankine Cycles, reinforcing theoretical concepts through practical application.

2.11 - 2.13 Exploring Modified Rankine and Reheat Cycles:
Uncover the intricacies of modified Rankine and reheat cycles, studying their applications, advantages, and numerical problem-solving.

2.14 Regenerative Cycle and Efficiency Expressions:
Delve into regenerative cycles, exploring efficiency expressions for direct and indirect contact heating cycles.

2.15 Numerical based on Regenerative Cycle:
Apply your understanding of regenerative cycles to solve numerical problems, honing your problem-solving skills.

2.16 Regenerative Reheat Cycle:
Explore the innovative concept of regenerative reheat cycles, understanding how these systems contribute to increased efficiency.

2.17 Supercritical Pressure and Binary Vapour Cycle:
Grasp the significance of supercritical pressure in vapour cycles and delve into the realm of binary vapour cycles, expanding your knowledge base.

2.18 Work Done and Efficiency Calculations for Binary Vapour Cycle:
Calculate work done and efficiency for binary vapour cycles, gaining practical insights into these advanced systems.

2.19 - 2.20 Properties of Binary Working Fluids and Numerical Problem Solving:
Explore the properties of binary working fluids and apply your knowledge to solve numerical problems related to binary vapour cycles.

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