322.045 Heat and Mass Transter
This course is in all assigned curricula part of the STEOP.
This course is in at least 1 assigned curriculum part of the STEOP.

2019W, VU, 2.5h, 3.0EC

Properties

  • Semester hours: 2.5
  • Credits: 3.0
  • Type: VU Lecture and Exercise

Learning outcomes

After successful completion of the course, students are able to

1.) to define the basic thermodynamic terms such as temperature, chemical potential, heat, enthalpy, chemical composition.

2.) to formulate the equilibrium conditions between thermodynamic systems.

3.) set up balance sheet equations for energy, mss, and chemical components.

4.) to clarify the different heat transfer mechanisms.

5.) to explain the different types of mass transfer and to illustrate the analogy with heat transfer.

6.) apply Fourie's heat transfer law.

7.) to explain the different types of definition of the diffusing current of a chemical component.

8.) to calculate the diffusion current using Fick's law.

9.) to convert between the different types of diffusion flows.

10.) apply the dimension analysis to heat and mass transfer problems.

11.) to explain and calculate the heat transfer and energy transport in a shear flow, taking into account the dissipation.

12.) describe the heat transfer to laminar pipe flow.

13.) specify the speed and temperature profile in a non-resolved shear flow at high Reynolds number near the wall.

14.) to define the terms "wall shear stress" "viscous sub-layer" of a turbulent shear flow.

15.) describe and calculate the qualitative behavior of flow and energy transport in laminar or turbulent shear flows in wall boundary layers.

16.) to explain the mechanism of free convection currents and to calculate the heat and mass transfer free convection currents.

17.) to know the radiation laws (Stefan-Boltzmann's, Wien's, Planck's Kirchhoff's radiation law) and to apply to heat transfer problems.

18.) to know, calculate, and interpret the dimensionless groups of heat and mass transfer.

19.) to solve the examples in the exercise collection.

20.) to answer the questions in the question catalouge correctly.



 

Subject of course

Heat transfer by conduction, diffusive mass transfer, heat and mass transfer for basic flows (Couette flow, pipe flow, boundary-layer flows for forced and natural convection), heat transfer by radiation

Teaching methods

lecture using the balckboard and projector, demosntration of exercise problems, questions haours before tests

Mode of examination

Immanent

Lecturers

Institute

Course dates

DayTimeDateLocationDescription
Thu10:00 - 12:0003.10.2019 - 30.01.2020GM 4 Knoller Hörsaal Heat and Mass Transfer
Thu10:00 - 12:0014.11.2019GM 4 Knoller Hörsaal Lecture
Thu17:00 - 19:0021.11.2019GM 1 Audi. Max. Test
Thu10:00 - 12:0023.01.2020HS 7 Schütte-Lihotzky 2. Test
Heat and Mass Transter - Single appointments
DayDateTimeLocationDescription
Thu03.10.201910:00 - 12:00GM 4 Knoller Hörsaal Heat and Mass Transfer
Thu10.10.201910:00 - 12:00GM 4 Knoller Hörsaal Heat and Mass Transfer
Thu17.10.201910:00 - 12:00GM 4 Knoller Hörsaal Heat and Mass Transfer
Thu24.10.201910:00 - 12:00GM 4 Knoller Hörsaal Heat and Mass Transfer
Thu31.10.201910:00 - 12:00GM 4 Knoller Hörsaal Heat and Mass Transfer
Thu07.11.201910:00 - 12:00GM 4 Knoller Hörsaal Heat and Mass Transfer
Thu14.11.201910:00 - 12:00GM 4 Knoller Hörsaal Lecture
Thu21.11.201910:00 - 12:00GM 4 Knoller Hörsaal Heat and Mass Transfer
Thu21.11.201917:00 - 19:00GM 1 Audi. Max. Test
Thu28.11.201910:00 - 12:00GM 4 Knoller Hörsaal Heat and Mass Transfer
Thu05.12.201910:00 - 12:00GM 4 Knoller Hörsaal Heat and Mass Transfer
Thu12.12.201910:00 - 12:00GM 4 Knoller Hörsaal Heat and Mass Transfer
Thu09.01.202010:00 - 12:00GM 4 Knoller Hörsaal Heat and Mass Transfer
Thu16.01.202010:00 - 12:00GM 4 Knoller Hörsaal Heat and Mass Transfer
Thu23.01.202010:00 - 12:00GM 4 Knoller Hörsaal Heat and Mass Transfer
Thu23.01.202010:00 - 12:00HS 7 Schütte-Lihotzky 2. Test
Thu30.01.202010:00 - 12:00GM 4 Knoller Hörsaal Heat and Mass Transfer

Examination modalities

2 Tests

P_ges = max (P_1T, P_1NT) + max(P_2T,P_2NT)+ P

Exams

DayTimeDateRoomMode of examinationApplication timeApplication modeExam
Fri09:00 - 12:0020.03.2020FH Hörsaal 1 written07.02.2020 00:00 - 17.03.2020 23:59TISSNACHTEST

Course registration

Begin End Deregistration end
26.09.2019 00:00 19.11.2019 00:00

Registration modalities:

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Curricula

Study CodeSemesterPrecon.Info
033 273 Chemical and Process Engineering 5. SemesterSTEOP
Course requires the completion of the introductory and orientation phase

Literature

H. D. Baehr, K. Stephan, Wärme- und Stoffübertragung, Springer Verlag, 4. Auflage, 2004.

W. Schneider, S. Haas, K. Ponweiser, Repetitorium Thermodynamik, 3. Auflage, Oldenbourg Verlag, 2012; Kapitel 11 Wärmestrahlung.

Alle Unterlagen zur VU sind vom TUWEL-online Kurs downloadbar.

Continuative courses

Language

German