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Intro Video

Thermodynamic Concepts:Applications of thermodynamics

Thermodynamic Concepts:System definition,Heat,Work & Mass Flow

Thermodynamic Concepts:Questions & Answers

Thermodynamic Concepts:Properties,State & Equilibrium

Thermodynamic Concepts:Process,Cycles & Applications

Thermodynamic Concepts:Steady state,Reversible & Irreversible processes

Thermodynamic Concepts:Causes of irreversibility

Thermodynamic Concepts:Thermal reservoirs

Thermodynamic Concepts:Pressure & temperature

Thermodynamic Concepts:Revision & Summary

Laws Of Thermodynamics : Mass flow rate, Conservation of mass, Flow work

Laws Of Thermodynamics : Zeroth Law

Laws Of Thermodynamics : First Laws Of Thermodynamics, 1st law for Control Mass, Internal Energy, en

Laws Of Thermodynamics : 1st law for Control Volume

Laws Of Thermodynamics : Revision,Cycles,Second Law statements,Clausius inequality

Laws Of Thermodynamics : Introduction to carnot Cycle

Laws Of Thermodynamics : Entropy,Entropy change for a system

Laws Of Thermodynamics : Thermodynamics relations,Bernoulli's equation

Laws Of Thermodynamics : Devices,Cycles

Properties of a Pure Substance: Thermodynamic behaviour of a pure substance

Properties of a Pure Substance: Saturated states, Subcooled liquid, Superheated vapour

Properties of a Pure Substance: Vapour pressure curve, Reference state

Properties of a Pure Substance: Saturated states

Properties of a Pure Substance: p-h diagram

Properties of a Pure Substance: T-s diagram, h-s diagram

Properties of a Pure Substance: Critical state, Compressibility factor

Properties of a Pure Substance: Ideal gas behaviour, Equations of state, Specific heat

Properties of a Pure Substance: Ideal gas processes

Properties of a Pure Substance: Gibbs energy, Helmholtz function, Property relations

Properties of a Pure Substance: Process analysis, Summary

Laws of Thermodynamics: Carnot Cycle Realization

Applications, Problem Solving: Devices, Schematic/Flow Diagrams

Applications, Problem Solving: Positive Displacement Devices

Applications, Problem Solving: Heat Exchangers

Applications, Problem Solving: Compressors, Fans & Blowers, Pumps

Applications, Problem Solving: Turbines

Applications, Problem Solving: Nozzle, Diffuser, Expansion Valve, Pipe/duct flow

Applications, Problem Solving: De-Superheater, Deaerator, Separation

Applications, Problem Solving: Unsteady processes, Filling, Evacuation

Applications, Problem Solving: Realization of Carnot cycle, Practical cycles, Air-standard cycles

Applications, Problem Solving: Materials, Compressible flow

Applications, Problem Solving: Otto cycle, Diesel cycle

Applications, Problem Solving: Closed system

Applications, Problem Solving: Open System

Properties of Ideal Gas Mixtures: Introduction to mixtures properties

Properties of Ideal Gas Mixtures: Equation of state, Conservation equations

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Description:

This course is on basic engineering thermodynamics. The first part, on single-component systems, covers basic concepts and definitions, conservation of mass, 1 st and 2 nd laws of thermodynamics for closed and open systems, thermodynamic properties of a pure substance and practical applications. The second part covers the physical behavior of a mixture of ideal gases, psychrometry, thermodynamics of reacting systems, combustion, phase and chemical equilibrium, and applications. Lecture notes will be provided and supplemented with assignments that emphasize systematic problem-solving.

Thermodynamics

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#Science #Physics #Thermodynamics #Engineering #Mechanical Engineering #Heat Exchangers #Carnot Cycle

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