Subject: Subject Sylbus: Introduction to Fluid Mechanics - 074133

Introduction to Fluid Mechanics - 074133
Will not be given the year
Credit
Points
3.5
 
  Lecture Exercise Laboratory Project or
Seminar
House
Work
Weekly
Hours
3 1     6

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


Prerequisites: ( Differential and Integral Calculus 2 104004
and Physics 1 114051 )
 
Linked Courses: Differential Equations for Mechanical Engineering 104213
 
Overlapping Courses: Fluid Mechanics 014203
Fluid Mechanics 014211
Fundamental Fluid Mechanics 014214
Introduction to Fluid Mechanics 014955
Fluid Mechanics 1 034013
Food Engineering 1 064101


Fluid Properties. Viscosity and Newton'S Law of Viscosity. Newtonian and Non-Newtonian Liquids. Introduction to Hydrostatics. Control Volume and the Integral Equations of Conservation of Mass, Momentum and Energy. Bernoulli'S Equation. Introduction to the Differential Analysis and the Navier-Stokes Equations. Exact Solutions for Laminar Flow. Introduction to Turbulence. Flow in Pipes, Ducts, Pumps, and Other Characteristic Devices of the Biotechnology Industry. Particle Motion and the Effects of Gravity and Drag. Centrifugal Separation. An Introduction to Porous Media and Filtration Technologies.




Textbooks
Compulsory
Book
PublishedPublisherAuthorsBook
Compulsory1992jhon wiley and sons, inc.r.w.fox and a.t. mcdonaldintroduction to fluid mechanics, 4th ed.
 1993prentice hall int. inc.geankoplis, c.j.transport phenomena and unit operations, 3rd ed.

Created in 23/11/2017 Time 03:45:58