CFD Computational Fluid Dynamics with heat and mass transfer - PowerPoint PPT Presentation

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CFD Computational Fluid Dynamics with heat and mass transfer

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Dx (dx)w (dx)e. Discretization. T. x. P. W. E. w. e. Tp ... Dx (dx)i. i. qB. qi. S. Boundary conditions. if qB specified as a constant then: Boundary conditions ... – PowerPoint PPT presentation

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Title: CFD Computational Fluid Dynamics with heat and mass transfer


1
CFDComputational Fluid Dynamics (with heat and
mass transfer)
  • MECH3950

2
Methods of prediction
  • Experimental investigation
  • full scale
  • expensive and often impossible
  • measurement errors
  • on a small scale model
  • simplified
  • difficult to extrapolate results
  • measurement errors
  • Theoretical calculation
  • analytical solutions
  • exist only for a few cases
  • sometimes complex
  • numerical solutions
  • for almost any problem

3
Modeling vs. experimentation
  • Advantages of modeling
  • cheaper
  • more complete information
  • can handle any degree of complexity as long as
  • Disadvantages of modeling
  • deals with a mathematical description not with
    reality
  • mathematical description can be inadequate
  • multiple solutions can exist
  • and the winner is

4
Mathematical description of transfer processes
  • Conservation principle leads to a general
    differential equation

5
Nature of coordinates
  • with respect to xj
  • 1D, 2D, 3D
  • with respect to t
  • steady
  • unsteady(transient, time dependent)
  • one-way coordinates gt parabolic problem
  • two-way coordinates gt elliptic problem

6
Discretization methods
  • analytical solution gives a function (continuous)
  • numerical solution gives a set of numbers
    (discrete)

7
Example steady 1D heat conduction
8
Integration
9
Discretization
10
Discretization equation
conductances
heat generation
11
Boundary conditions
  • 1. Given boundary temperature
  • simple
  • 2. Given boundary heat flux
  • a) as a constant
  • b) specified via a heat transfer coefficient
    and the temperature of the surrounding fluid

12
Boundary conditions
13
Boundary conditions
14
Boundary conditions
  • if qB specified as a constant then

15
Boundary conditions
  • if qB specified via a heat transfer h
    coefficient and the temperature of the
    surrounding fluid Tf

16
Solution of the linear algebraic equations
  • Possibilities
  • Iteration
  • Gaussian elimination
  • Tri-Diagonal-Matrix-Algorithm TDMA

change of notation
17
TDMA
what happens when a boundary temperature is
given ?
18
TDMA
19
TDMA
20
TDMA algorithm
  • CalculateP1b1/a1 and Q1d1/a1
  • Use recurrence relations to get Pi and Qi for
    i2,3N.
  • Set TN QN
  • Use recurrence relations to getTi Pi Ti1 Qi
    for iN-1, N-23, 2, 1
  • to obtain
  • TN-1, TN-2, T3, T2, T1.
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