322.049 Fluid Mechanics 2
This course is in all assigned curricula part of the STEOP.
This course is in at least 1 assigned curriculum part of the STEOP.

2018W, VO, 2.0h, 3.0EC

Properties

  • Semester hours: 2.0
  • Credits: 3.0
  • Type: VO Lecture

Aim of course

Give Engineering students a deeper and more thorough grounding in principles and fundamental applications of fluid mechanics.

Subject of course

  • Lecture 1 - Adimensionalization
  • Lecture 2 - Creeping Flow           
  • Lecture 3 - Lubrication theory I
  • Lecture 4 - Lubrication theory II
  • Lecture 5 - Application of Lubrication theory
  • Lecture 6 - Potential flow
  • Lecture 6 - Potential flow and drag on slender body
  • Lecture 7 - D' Alembert paradox
  • Lecture 8 - Boundary layer: theory and Stokes problem
  • Lecture 9 - Boundary layer: flat plate, Blasius solution, separation and classification
  • Lecture 10 - Turbulence phenomena and modelling
  • Lecture 11 - Modelling of the Reynolds stresses
  • Lecture 12 - Law of the wall (Turbulent flow in a pipe)
  • Lecture 13 – Summary exercises

Additional information

NOTE: VO lectures will start on Thursday October 4th 

Lecturers

Institute

Course dates

DayTimeDateLocationDescription
Thu10:00 - 12:0004.10.2018 - 24.01.2019HS 11 Paul Ludwik Fluid Mechanics 2
Wed10:00 - 12:0023.01.2019HS 11 Paul Ludwik Strömungsmechanik 2
Fluid Mechanics 2 - Single appointments
DayDateTimeLocationDescription
Thu04.10.201810:00 - 12:00HS 11 Paul Ludwik Fluid Mechanics 2
Thu11.10.201810:00 - 12:00HS 11 Paul Ludwik Fluid Mechanics 2
Thu18.10.201810:00 - 12:00HS 11 Paul Ludwik Fluid Mechanics 2
Thu25.10.201810:00 - 12:00HS 11 Paul Ludwik Fluid Mechanics 2
Thu08.11.201810:00 - 12:00HS 11 Paul Ludwik Fluid Mechanics 2
Thu22.11.201810:00 - 12:00HS 11 Paul Ludwik Fluid Mechanics 2
Thu29.11.201810:00 - 12:00HS 11 Paul Ludwik Fluid Mechanics 2
Thu06.12.201810:00 - 12:00HS 11 Paul Ludwik Fluid Mechanics 2
Thu13.12.201810:00 - 12:00HS 11 Paul Ludwik Fluid Mechanics 2
Thu20.12.201810:00 - 12:00HS 11 Paul Ludwik Fluid Mechanics 2
Thu10.01.201910:00 - 12:00HS 11 Paul Ludwik Fluid Mechanics 2
Thu17.01.201910:00 - 12:00HS 11 Paul Ludwik Fluid Mechanics 2
Wed23.01.201910:00 - 12:00HS 11 Paul Ludwik Strömungsmechanik 2
Thu24.01.201910:00 - 12:00HS 11 Paul Ludwik Fluid Mechanics 2

Examination modalities

Exams: 

Exam dates are available on TISS.

Structure of each exam: 

All exams are tests in written form. Each test has two or more problems. Each problem may have two or more questions. A score is assigned to each question so that the maximum score that can be achieved for a perfect test is 100.

Scores:

Final grades are assigned according with the following table:

SCORE                GRADE
<50   -> (fail)          5
51-65 -> (pass)      4
66-73 -> (pass)      3
74-85 -> (pass)      2
>86 -> (pass)         1

Exams

DayTimeDateRoomMode of examinationApplication timeApplication modeExam
Wed16:00 - 18:0004.12.2019Seminarraum BA 08A written29.10.2019 00:00 - 02.12.2019 23:59TISSPrüfung WS-2
Mon10:00 - 12:0003.02.2020HS 17 Friedrich Hartmann written05.12.2019 00:00 - 30.01.2020 23:59TISSPrüfung WS-3
Mon10:00 - 12:0003.02.2020Hörsaal 6 written05.12.2019 00:00 - 30.01.2020 23:59TISSPrüfung WS-3
Mon10:00 - 12:0003.02.2020GM 5 Praktikum HS written05.12.2019 00:00 - 30.01.2020 23:59TISSPrüfung WS-3
Tue12:00 - 14:0007.04.2020HS 17 Friedrich Hartmann written29.01.2020 00:00 - 05.04.2020 23:59TISSPrüfung SS-1
Fri12:00 - 14:0008.05.2020GM 5 Praktikum HS written04.03.2020 00:00 - 06.05.2020 23:59TISSPrüfung SS-2
Fri14:00 - 16:0012.06.2020EI 3 Sahulka HS written04.04.2020 00:00 - 09.06.2020 23:59TISSPrüfung SS-3

Course registration

Not necessary

Curricula

Study CodeSemesterPrecon.Info
033 245 Mechanical Engineering STEOP
Course requires the completion of the introductory and orientation phase
033 282 Mechanical Engineering - Management STEOP
Course requires the completion of the introductory and orientation phase
066 445 Mechanical Engineering STEOP
Course requires the completion of the introductory and orientation phase
066 482 Mechanical Engineering - Management STEOP
Course requires the completion of the introductory and orientation phase

Literature

Lecture notes.

For more on these topics, see:

  • –  M.M. Denn. Process Fluid Mechanics, Ed. Prentice-Hall, 1980 
  • –  R.L. Panton, Incompressible Flow, Ed. Wiley & Sons, 1960 
  • –  S.B. Pope, Turbulent Flows, Cambridge University Press, Cambridge, U.K., 2000 
  • –  Collection of examples

 

Language

English