course-details-portlet

KP8904

Transport Phenomena

Credits 7.5
Level Doctoral degree level
Course start Autumn 2010
Duration 1 semester
Language of instruction English
Examination arrangement Portfolio assessment

About

About the course

Course content

Steady and un-steady diffusion in dilute and concentrated fluids in different geometries. The Fick and Stefan-Maxwell equations, multicomponent diffusion. Diffusion in porous media. Generalised equations for momentum, mass and heat flow. Laminar and turbulent boundary layers. Mass transfer models. Simultaneous heat and mass transfer and transfer analogies. Introduction to Matlab (Solving ordinary differential and partial differential equations, discretization).

Learning outcome

The course is aimed at deepening the students understanding of transport processes for mass-, heat-, and momentum. The main emphasis is on mass transfer and diffusional processes. The exercises should provide the students with experience in calculating and modelling separation equipment.

Learning methods and activities

Lectures with worked-through examples. Compulsory exercises where 3 will contribute to the final mark. The exercises partially use Matlab. Continuous evaluation forms the basis for the final mark. This comprises written final exam (60%), mid-term test (20%), and three exercises (20%). If there is a re-sit examination, the examination form may change from written to oral.

Compulsory assignments

  • Exercises

Course materials

H. A. Jakobsen: Chemical Reactor Modeling, Springer 2008

Credit reductions

Course code Reduction From
TKP4160 7.5 sp
This course has academic overlap with the course in the table above. If you take overlapping courses, you will receive a credit reduction in the course where you have the lowest grade. If the grades are the same, the reduction will be applied to the course completed most recently.

Subject areas

  • Technological subjects

Contact information

Course coordinator

Lecturers

Department with academic responsibility

Department of Chemical Engineering

Examination

Examination

Examination arrangement: Portfolio assessment
Grade: Letters

Ordinary examination - Autumn 2010

Skriftlig eksamen
Weighting 60/100 Date 2010-12-17 Time 15:00 Duration 4 timer Place and room Not specified yet.
Semesterprøve
Weighting 20/100
Arbeider
Weighting 20/100

Ordinary examination - Spring 2011

Skriftlig eksamen
Weighting 60/100 Duration 4 timer Place and room Not specified yet.
Semesterprøve
Weighting 20/100
Arbeider
Weighting 20/100

All about examinations at NTNU