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Numerical thermoflow 781

Module code	MSM 781
Qualification	Postgraduate
Faculty	Faculty of Engineering, Built Environment and Information Technology
Module content	The Efficient Solvers: Background, muligrid theory and detailed description of the algorithm. Finite Volume method: Understand the governing equations, general form of the transport equations, Gauss's theorem and the finite volume discretisation. Iterative solution algorithm: Pressure-velocity coupling, types of grids, unsteady flows, multiple phases. Finite Volume Discretisation: Diffusion term, convection term and source term for steady flows. Convection-diffusion problems: Boundary conditions, higher order discretisation, accuracy / stability. Solution Algorithm for Pressure-Velocity coupling: SIMPLE, SIMPLER, SIMPLEC and PISO. Laminar, transitional and turbulent flow: Background and theory. Turbulence modelling and examples: Definition of turbulence, turbulence modelling approaches, turbulence models ( zero-equation models, one equation, two equation, Reynolds Stress Model (RSM), Large Eddy Simulation, wall function approach), turbulence modelling guidelines. Recent CS developments: Current state of the art in turbulence modelling etc. Viscous boundary meshes: Background and objectives, internal and external flow, turbulence modelling considerations.
Module credits	16.00
NQF Level	08
Programmes	BEngHons Mechanical Engineering BScHons (Applied Science) Mechanics
Prerequisites	MSM 780
Contact time	21 contact hours per semester
Language of tuition	Module is presented in English
Department	Mechanical and Aeronautical Engineering
Period of presentation	Semester 2

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Numerical thermoflow 781

General Academic Regulations and Student Rules

Regulations, degree requirements and information

University of Pretoria Programme Qualification Mix (PQM) verification project

Yearbooks

2016

2017

2018

2019

2020

2021

2022

2023

2024