This Master’s program is aimed at training graduates in engineering and science with the skills required to understand, and use, applied mathematical modelling and scientific computing.
It provides a detailed insight into industrial environmental modelling problem and numerical software. This programme also wants to demonstrate how computational engineering is used effectively in solving realworld problems.
This Masters program is composed of two years training (four semesters). The first year (M1) is devoted to basic computational methods applied to the fluid and solid mechanics. It gives the basis for mathematical and numerical tools supported by projects for real applications. The second year (M2) is composed of a first semester, which is focused on the training with industrial codes. The second semester of M2 is devoted to the master thesis (16 weeks in industry or research laboratories) and the final examination.
Numerical modelling for industrial applications is a rapidly growing discipline, which brings together the power of computers and the biological, chemical and physical sciences. Computer based simulations and their related visualisations play a key role in industrial applications, environmental or biomechanical investigations. This master aims to train students with research and development skills through projects, which will have industrial and/or academic significance. During this master program, students will acquire the backgrounds in computational engineering, which will allow applying for jobs in industry as well as in research laboratories where computational work is needed.
|Semestre 1||30 CREDITS|
|Programming language||3 ECTS|
|Computing project||3 ECTS|
|Mathematical methods for physics||3 ECTS|
|Continuum Mechanics||3 ECTS|
|Numerical resolution of equations||3 ECTS|
|Partial differential equation and their modelling||3 ECTS|
|Computational fluid mechanic, incompressible flows||3 ECTS|
|Free UE||3 ECTS|
|Introduction to project management and communication||3 ECTS|
|Semestre 2||30 CREDITS|
|Spectral analysis||3 ECTS|
|Advanced finite element/ volume numerical methods||3 ECTS|
|Computational plasticy||3 ECTS|
|Computational Fluid mechanics, compressible flows||3 ECTS|
|Multiscale modelling||3 ECTS|
|Computational dynamics||3 ECTS|
|Computational analysis for statistical methods||3 ECTS|
|Measurement and Identification||3 ECTS|
|Project M1 S2||3 ECTS|
|Constituve laws for rheological fluids||3 ECTS|
|Semestre 3||30 CREDITS|
|Applied Computational Engineering for heat and mass transfer||3 ECTS|
|Applied Computational Engineering for materials and structures||3 ECTS|
|Visualization and grid generation||3 ECTS|
|Computational fluid dynamics project||3 ECTS|
|Advanced utilization of computational solid mechanics codes||3 ECTS|
|Advanced computation in biomechanics||3 ECTS|
|Development and utilization of simulation tools for chemical engineering||3 ECTS|
|Free software in CFD and CSM||3 ECTS|
|Qualicy policy and eco-conception||3 ECTS|
|UE free||3 ECTS|
|Semestre 4||30 CREDITS|
|Master Thesis||30 ECTS|
Course Director : Hoarau Yannick
Master Director : Gerhard Schäfer
Pour obtenir des informations, cliquez ici.
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