The students gain advanced knowledge in the treatment and resolution of problems from the heat and mass transport. They get to know typical modeling problems and the ways to solve this. The students will gain practical experience in the implementation of FEM analyzes with examples from the areas of mass and heat transport.

MBLB-MuM1 - Mathematik und Mechanik 1, MBLB-LBM1 - Leichtbau-
Materialien 1, MBLB-MuR - Mess- und Regelungstechnik, MBLB-LBK -
Leichtbau-Konstruktion, MBLB-MuM2 - Mathematik und Mechanik 2,
MBLB-LBM2 - Leichtbau-Materialien 2

Fourier law of heat conduction, heat equation, Peclet equation for different geometries, unsteady heat transfer, radiation, thermal fluid dynamics, laminar and turbulent flow, Navier-Stokes equation, mass transfer, diffusion equations (1st & 2nd Fick's Eq), discussion of analytical and numerical solutions.
Discretization: finite differences, finite elements application examples and practical exercises
Experimental Validation

Incopera, Fundamentals of Heat and Mass Transfer, Wiley, 2006
Munson, Fundamentals of Fluid Mechanics, Wiley, 2006
Borgnakke, Fundamentals of Thermodynamics, Wiley, 2009
Heat and Mass Transfer
Heat transfer Engineering
Journal of Heat Transfer
Oertel, Laurien: Numerische Strömungsmechanik; Vieweg
Müller, Groth: FEM für Praktiker, Band 3: Temperaturfelder; Expert
Stoffel: Finite Elemente und Wärmeleitung; Wiley-VCH
Cebeci, Bradshaw: Physical and Computational Aspects of
Convective Heat Transfer; Springer
Numerical Heat Transfer A & B

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