Course Catalog 2006-2007

ENER-4856 TURBULENCE PHENOMENA IN FLUID DYNAMICS, 6 cr
Turbulence Phenomena in Fluid Dynamics

Courses persons responsible
Hannu Ahlstedt

Lecturers
Hannu Ahlstedt
Pentti Saarenrinne

Implementations

Period 1 Period 2 Period 3 Period 4 Period 5 Summer

Lecture 4 h/week 3 h/week - - - -

Exercise 1 h/week 2 h/week - - - -

Exercise work 12 h/per 12 h/per - - - -

Exam

(Timetable for academic year 2006-2007)

Objectives
Student obtains deeper knowledge on phenomena in turbulent flow, equations governing turbulent flows and turbulence modelling.

Content

Content Core content Complementary knowledge Specialist knowledge

1. Concepts and introduction to turbulent momentum transfer

2. Experimental and statistical methods

3. Turbulence dynamics, length and time scales

4. Free and wall turbulent shear flows

5. Turbulence models:
- two equation models
- Reynolds stress model
- LES DNS

Requirements for completing the course
Approved exercises and written exams

Evaluation criteria for the course

Evaluation is based on written exam, but good calculation exercises can improve grade. All calculation exercises have to be made acceptable before written exam.

Used assessment scale is numeric (1-5)

Study material

Type Name Auhor ISBN URL Edition, availability... Exam material Language

Book Turbulent Flows Pope, S. B. 0-521-59886-9 Yes English

Prerequisites
Prequisite relations (Sign up to TUT Intranet required)

Additional information about prerequisites
Basic knowledge in viscous fluid flow about 10-15 cu.

Remarks

The course is lectured in every third year and will be lectured next time in the academic year 2006-2007. Lectures are given in English, if there are enough participants. Otherwise will be lectured course ENER-4850.

The course is suitable for postgraduate studies.

Distance learning

ITC utilized during the course

- In information distribution via homepage, newsgroups or mailing lists, e.g. current issues, timetables
- In compiling exercise, group or laboratory work
- In distributing and/or returning exercise work, material etc
- In the visualization of objects and phenomena, e.g. animations, demonstrations, simulations, video clips

Estimate as a percentage of the implementation of the course

- Contact teaching: 40 %
- Distance learning: 0 %
- Proportion of a student's independent study: 60 %

Scaling

Methods of instruction Hours

Lectures 105

Exercises 54

Total sum 159

Correspondence of content
2502150 Turbulence phenomena in fluid dynamics

Last modified 01.03.2006

Modified by Hannu Ahlstedt

	Period 1	Period 2	Period 3	Period 4	Period 5	Summer
Lecture	4 h/week	3 h/week	-	-	-	-
Exercise	1 h/week	2 h/week	-	-	-	-
Exercise work	12 h/per	12 h/per	-	-	-	-
Exam

Content	Core content	Complementary knowledge	Specialist knowledge
1.	Concepts and introduction to turbulent momentum transfer
2.	Experimental and statistical methods
3.	Turbulence dynamics, length and time scales
4.	Free and wall turbulent shear flows
5.	Turbulence models: - two equation models - Reynolds stress model - LES	DNS

Type	Name	Auhor	ISBN	URL	Edition, availability...	Exam material	Language
Book	Turbulent Flows	Pope, S. B.	0-521-59886-9			Yes	English

Methods of instruction	Hours
Lectures	105
Exercises	54
Total sum	159

Course Catalog 2006-2007

ENER-4856 TURBULENCE PHENOMENA IN FLUID DYNAMICS, 6 crTurbulence Phenomena in Fluid Dynamics

ENER-4856 TURBULENCE PHENOMENA IN FLUID DYNAMICS, 6 cr
Turbulence Phenomena in Fluid Dynamics