Tillämpningar i beräkningsströmningsdynamik och värmeöverföring (Applications of Computational Fluid Dynamics and Heat Transfer) 7,5 hp
Undervisningen bedrivs på engelska.Kursinnehåll
The course treats fundamentals of CFD and heat transfer, and methodologies for solving a broad range of multi-disciplinary engineering problems in the context of manufacturing process and component design, via application of CFD and thermal simulation tools in design analysis. The effects of different fluid flow regimes and thermo-physical properties of materials are studied. The course includes simulation laboratory sessions (e.g. COMSOL Multiphysics, Flotherm) and laboratory measurements serving e.g. for the purposes of model validation/input parameter generation.The course includes the following elements:
- Steady state and transient heat transfer, heat transfer modes and thermal resistance network applications.
- Overview of Navier-Stokes equations, and numerical solution methods
- CFD model validation and virtual prototyping methodology
- Fluid flow in porous media, including local thermal non-equilibrium conditions, and applications.
- Flow and heat transfer simulation in the context of the methods, materials, and components for thermal management of automotive and telecom assemblies
- Heat transfer models for heat treatment process design (e.g. annealing) of large metallic components
- Simplified phase transformation models and their application to manufacturing processes, e.g. laser cladding
- Applications of fluid flow and heat transfer models for polymer component manufacturing
Förkunskapskrav
Passed courses of at least 210 credits in the program Industrial Product Realisation, or passed courses of at least 90 credits in Materials and Manufacturing, Materials Engineering, Mechanical Engineering, Chemical Engineering, Product Development, Engineering Physics or the equivalent. The bachelor’s degree should comprise a minimum of 15 credits in Mathematics. Taken courses Polymer and Composite Technology, 7,5 credits, and Metallic Materials: From Phase Transformation to Characterization, 7,5 credits, or the equivalent. Proof of English proficiency is required.Utbildningsnivå: Avancerad nivå
Kurskod/Ladokkod: TTBS22
Kursen ges vid: Tekniska Högskolan
Kommande kurstillfällen
Typ av Kurs
Programkurs
Studieform
Campus
Termin
Hösten
2025:
vecka 36
-
vecka 43
Studietakt
100%
Undervisningsspråk
Engelska
Ort
Jönköping
Kurstid
Dag
Examinator
Ilia Belov
Kursansvarig
Ilia Belov
Gäller enbart studenter utanför EU/EES/Schweiz: Studieavgift
21375kr
Anmälningskod
HJ-T4373