Catalog data:
integral balances, dimensional analysis, laminar and turbulent flow, flow in pipes and
ducts, boundary layers, flow about immersed bodies, compressible flow, conductive- and
convective heat transfer. |
Courseyear:
2
Semester: 0/0/4/0
Hours p/w: 4
Other hours: 0
Assessment: written
Assessm.period(s): 3, 4
(see academic calendar) |
Prerequisites:
wb1123 |
Follow
up: |
Detailed
description of topics:
-
Fundamental
Cocepts
-
Fkuid
Statics
-
Basic
Equations in Integral Form for a Control Volume
-
Bernoulli
Equation
-
Dimensional
Analysis and Similitude
-
Internal
Incompressible Viscous Flow
-
External
Incompressible Viscous Flow
-
Flow in
Open Channels
-
Introduction
to Compressible Flow
-
Steady
One-Dimensional Compressible Flow
-
Steady-State
Conduction in One Dimension
-
Unsteady-Stae
Conduction
-
Principles
of Convection
-
Empirical
and Practical Relations for Forced-Convection Heat Transfer
|
Course
material:
-
Introduction to Fluid Mechanics. Robert W. Fox,
Alan T. McDonald 4th edition, SI version, John Wiley & Sons, ISBN 0-471-59274-9
-
Heat Transfer. J.P. Holman, P.R.S. White 7th edition
in SI units, McGraw-Hill book company, ISBN 0-07-112644-9
|
References
from literature:
-
Boundary Layer Theory H. Schlichting. McGrawHill
-
Mechanics of Fluids. F.H. Shames. McGrawHill Student
edition
-
Fluid Mechanics V.L. Streeter McGrawHill Student
edition
-
Fluid Mechanics F.M. White McGrawHill (3rd edition)
-
Technische Strömungslehre E. Becker.
-
Teubner Studienbücher
|
Remarks
(specific information about assesment, entry requirements, etc.):
This course will be examined (closed book) in
fall(end of 1st term) and winter(at the beginning of the 3rd term) each year
|
Goals:
This course is designed to describe in integral
form the basic equations of fluid mechanics with applications to flow in pipes with head
losses, wings and impeller blades, channel flow, Laval tube compressible flow, etc. An
introduction to the transport of heat by conduction is given (one-dimensional form of
Fourier's law ) and by convection of heat from/to fluids to/from solid walls.
|
Computer
use:
|
Laboratory
project(s):
|
Design
content:
The course does not deal with any design aspects.
|
Percentage
of design: 0 % |