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Summary
Introduction to Transport Phenomena
Momentum Transport
>
Introduction to Momentum Transport
Momentum Transport : Flow of Falling Liquid
Momentum Transport : Flow through circular tubes
Momentum Transport : Flow through annulus of circular tubes
Momentum Transport : Equation of Change for Isothermal Systems
Energy Transport
>
Introduction to Energy Transport
Energy Transport with Heat Source
Energy Transport with Energy Dissipation
Heat Conduction Through a Composite Wall
Mass Transport
>
Introduction to Mass Transport
Stagnant Gas and Heterogeneous Catalyst
Assignment
Assignment 1
Assignment 2
MOMENTUM TRANSPORT : EQUATION OF CHANGE FOR ISOTHERMAL SYSTEMS
Learning outcome :
Able to derive:-
The continuity equation
The equation of motion
Special Cases of Equation of Motion:
Navier-Stokes Equation
Stokes Equation
Euler Equation of Inviscid Flow
Home
About
Summary
Introduction to Transport Phenomena
Momentum Transport
>
Introduction to Momentum Transport
Momentum Transport : Flow of Falling Liquid
Momentum Transport : Flow through circular tubes
Momentum Transport : Flow through annulus of circular tubes
Momentum Transport : Equation of Change for Isothermal Systems
Energy Transport
>
Introduction to Energy Transport
Energy Transport with Heat Source
Energy Transport with Energy Dissipation
Heat Conduction Through a Composite Wall
Mass Transport
>
Introduction to Mass Transport
Stagnant Gas and Heterogeneous Catalyst
Assignment
Assignment 1
Assignment 2