Subject: Subject Sylbus: Principles of Heat Transfer in Aerospace Engineering - 085320

Principles of Heat Transfer in Aerospace Engineering - 085320
Will not be given the year
Credit
Points
3.0
 
  Lecture Exercise Laboratory Project or
Seminar
House
Work
Weekly
Hours
2 1      

Determination of the grade according to progress during the semester and a final examination.


Prerequisites: ( Compressible Flow, Inlets and Nozzles 084312
and Viscous Flow and Heat Transfer 084314 )
 
Overlapping Courses: Heat Transfer 034014
Heat Transfer 034041
Principles of Chemical Engineering 2M 054306
Momentum, Heat and Mass Transport for Material Engineering 315029


I ntroduction. Fourier'S Law. Equation of Heat Conduction, Steady and Unsteady 1D Conduction, Heat Sources and Fins, Free and Forced Convection, Free Convection from Vertical and Horizontal Surfaces, Forced Convection from a Flat Plate, Equations of Heat Transfer in Compressible Boundary Layers, Recovery Factor, Convection in High Mach-Flow. Principles of Radiation and Stefan'S Equation. Black-Body Radiation, Atmospheric Attenuation, Gray Body Radiation. Ablation. Heat Transfer in Micro-Systems.




Textbooks
PublishedPublisherAuthorsBook
1990mcgraw - hill, n.y.j.p. holmanheat transfer 7th ed and up

Created in 21/11/2017 Time 06:08:00