Subject: Subject Sylbus: Momentum, Heat and Mass Transport for Material Engineering - 315029

Momentum, Heat and Mass Transport for Material Engineering - 315029
Will not be given the year
Credit
Points
3.0
 
  Lecture Exercise Laboratory Project or
Seminar
House
Work
Weekly
Hours
2 2     2

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


Prerequisites: Mechanical Behavior of Materials 315008
or Diffusion in Solids 315051
 
Overlapping Courses: Principles of Heat Transfer in Aerospace Engineering 085320
Momentum, Heat and Mass Transport for Materials Engineering 315039
 
Incorporated Courses: Fluid Mechanics 1 034013
Heat Transfer 034014
Principles and Balances in Chemical Eng. 054110
Introduction to Chemical Engineering 054130
Int. to Chemical and Biochemical Eng. 054131
Chemical Engineering Principles 2 054303


Introduction. Momentum Transfer - Fluids, Fluids, Fluid Statics, Fluids in Motion: Lagrangian and Eulerian, Streamlines. Control Volume Approach. Laminar Flow, Poiseulle Flow. Differential Approach: Navier Stokes. Bernoulli. Dimensional Analysis. Viscous Flow: Reynolds Number, Drag, Boundary Layer. Heat Transfer - Conduction, Convection, Radiation. Differential Approach. Steady and Unsteady State. Prandtl Number, Boundary Layer. Mass Transfer- Diffusion. Differential Approach. Steady and Unsteady State, Convective Mass Transfer, Schmidt Number.




Textbooks
PublishedPublisherAuthorsBook
1994t.m.c. presspoirer d.r.transport phenomena in materials processing
2000wileywelty, jrfundamentals of momentum, heat and mass transfer 4th ed.

Created in 23/11/2017 Time 03:45:12