UNIT 1:
Governing equations in Cartesian, cylindrical and spherical coordinates
Governing equations in Cartesian, cylindrical and spherical coordinates
Governing equations in Cartesian, cylindrical and spherical coordinates
1-D steady state heat conduction with and without heat generation
1-D steady state heat conduction with and without heat generation
Critical thickness of insulation
Heat transfer from extended surfaces
Effect of temperature on conductivity–1-D transient analysis
UNIT 2:
Review of basic equations of fluid flow
Laminar flow over flat plate and flow through pipes
Turbulent flow over flat plate and flow through pipes
Heat transfer from vertical plate using integral method Empirical relations Types of heat exchangers
Overall heat transfer coefficient , Logarithmic Mean Temperature Difference and Number of Transfer Units methods of analysis
Gas turbine blade cooling
UNIT 3:
Laws of black body radiation
Radiation between black surfaces
Radiation heat exchange between grey surfaces
Electrical network analogy in thermal radiation systems
UNIT 4:
1-D and 2-D steady and unsteady state heat conduction
variable thermal conductivity
Extended surfaces analysis using finite difference method
Convective heat transfer , Stream function , Vorticity method Creeping flow analysis convection
Diffusion 1-D, 2-D analysis using finite difference approximation
Numerical methods applicable to radiation heat transfer
UNIT 5:
Heat transfer problems in gas turbines
Combustion chamber wall cooling techniques
Thermal Analysis of multilayer insulation for reentry aerodynamic heating
