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Engineering Thermodynamics

Engineering Thermodynamics. Instructor: Dr. D. P. Mishra, Department of Aerospace Engineering, IIT Kanpur. This course provides an introduction to the most powerful engineering principles - Thermodynamics: the science of energy and its transformation from one form to another form. The subject is widely applicable in several branches of engineering and science. The objective of this course is to introduce systematic different tools needed to analyze energy systems from various daily lives to large scale engineering applications. More specifically, we will cover the topics of mass and energy conservation principles; first law analysis of closed and open systems; understanding second law of thermodynamics and entropy; exergy; properties of pure substances; power generation and refrigeration on thermodynamic cycles; thermodynamic relation, combustion and reaction. (from nptel.ac.in)

Lecture 38 - Thermodynamic Property Relations (cont.)

This video lecture describes the measurable and non-measurable properties, Maxwell relations and Mnemonic diagram, applications of thermodynamic relations in terms of entropy, internal and enthalpy change by various methods (partial derivative, Maxwell, and Jacobian), phase change and Clapeyron equation, Joule-Thomson Coefficient, Clausius Clapeyron equation.


Go to the Course Home or watch other lectures:

SI Unit, Definitions and Concepts
Lecture 01 - Thermodynamics and its Applications
Lecture 02 - System and its Surroundings
Lecture 03 - Property of System
Lecture 04 - Energy and its Various Forms
Lecture 05 - Concepts of Equilibrium and its State
Lecture 06 - Energy and its Interactions
Properties of Pure Substances
Lecture 07 - Heat Interactions
Lecture 08 - Thermodynamic Properties of Fluids 1
Lecture 09 - Thermodynamic Properties of Fluids 2
Lecture 10 - Thermodynamic Properties of Fluids 3
Lecture 11 - Thermodynamic Properties of Fluids 4
Lecture 12 - Thermodynamic Properties of Fluids 5
First Law of Thermodynamics for Non-flow Processes
Lecture 13 - First Law of Thermodynamics for Cyclic Process
Lecture 14 - First Law of Thermodynamics for Non-cyclic Process
Lecture 15 - First Law of Thermodynamics for Non-cyclic Process (cont.)
First Law of Thermodynamics for Flow Processes
Lecture 16 - Control Mass and Control Volume
Lecture 17 - First Law of Thermodynamics for Steady Flow Processes
Lecture 18 - First Law of Thermodynamics for Unsteady Flow Processes
First Law Application to Chemically Reacting Systems and Second Law of Thermodynamics
Lecture 19 - First Law of Thermodynamics to Reacting Systems
Lecture 20 - Second Law of Thermodynamics: Basic Concepts
Lecture 21 - Second Law of Thermodynamics: Basic Concepts (cont.)
Second Law of Thermodynamics and Entropy
Lecture 22 - Second Law of Thermodynamics: Carnot Cycle and Efficiency
Lecture 23 - Second Law of Thermodynamics: Clausius Inequality
Lecture 24 - Applications of Second Law of Thermodynamics: Entropy
Lecture 25 - Applications of Second Law of Thermodynamics: Entropy (cont.)
Lecture 26 - Exergy
Power Cycles
Lecture 27 - Gas Turbine Cycle
Lecture 28 - Vapor Power Cycle: Reheating Rankine Cycle System
Lecture 29 - Vapor Power Cycle: Regenerative Rankine Cycle System
Lecture 30 - Vapor Power Cycle: Real Rankine Cycle
Lecture 31 - Gas Power Cycles
Lecture 32 - Gas Power Cycles: Diesel and Brayton Cycle
Lecture 33 - Refrigeration Cycles
Gas Mixtures, Gas-Vapor Mixtures, and Air-conditioning
Lecture 34 - Non-Reacting Mixture and Psychrometry
Lecture 35 - Gas-Vapor Mixture and Air Conditioning
Lecture 36 - Gas-Vapor Mixture and Air Conditioning (cont.)
Thermodynamic Property Relations
Lecture 37 - Thermodynamic Property Relations
Lecture 38 - Thermodynamic Property Relations (cont.)