Transport Phenomena
- An introduction to the Transport Phenomena - Fluid Statics
- Newtons law of viscosity and the concept of viscosity
- Calculation of gas viscosity by kinetic theory of gases, viscosity of liquids
- Momentum balance in laminar fluid flow - Couette flow
- flow of a falling film, Flow through a circular tube - Hagen-Poiseuille equation
- The equation of continuity, equation of motion, Navier Stokes equation
- An introduction to turbulent flow, Reynolds experiment, Friction factor and empirical equation in fluid flow, Moody diagram
- Creeping flow, ideal flow- fluid flow in compact bed
- Macroscopic momentum balance and Bernoulli equation
- Application of Bernoulli equation in solving engineering problems, Friction loss, drainage of a vessel, Pitot tube and Venturi meter
- An introduction to heat transfer, Fourier law of heat conduction and heat conduction coefficient in materials
- Heat conduction in simple and composite walls
- Heat conduction with heat generation - equation of heat conduction in solids
- Unsteady state heat conduction in solids, Newtonian cooling
- Heat conduction in semi-infinite solid
- Transient heat conduction in solids - Heisler diagram
- Heat transfer by convection from a horizontal cylinder
- Natural heat convection -Vertical plate
- Heat convection coefficient and an introduction to the boundary layer
- Empirical equations for heat transfer coefficient
- Heat transfer by radiation - Stefan Boltzmann law, Black body radiation, grey and real bodies
- View factor and electrical analogy for black and grey bodies
- Heat transfer by simultaneous radiation and convection