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with the existing OpenFOAM solver Extensions of the model regarding electrochemical reaction mechanisms Meshing complex electrode structures Parameterization of the model using experimental data
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using OpenFOAM. The first part of the post is funded by international energy companies. It involves CFD simulations of accidental releases of cryogenic liquid hydrogen, focusing on the evaporation and
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implementation of a coupled Computational Fluid Dynamics (CFD) and fire dynamics model within the OpenFOAM framework. This model will simulate battery thermal runaway and subsequent fire propagation. The
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rigorous 3D modeling tool to model multiphase fluid flow within the wellbore using a computational fluid dynamics (CFD) solvers, such as OpenFOAM and Ansys-fluent. The model should account for thermodynamics
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The project aims at the development of a self-contained finite volume (OpenFOAM-based) solver for the solidification of multiphase flows with a free surface, including radiative heat transfer through semi
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method) Experience with open-source CFD software such as OpenFOAM, PFLOTRAN, OpenGeoSys, and geochemistry software such as PHREEQC This is a three-year fixed-term position with a start date of May 1st
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of numerical methods for solving nonlinear systems of partial differential equations (e.g., finite volume method, finite element method) Experience with open-source CFD software such as OpenFOAM, PFLOTRAN
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Computational Fluids Dynamics (CFD); • Well informed and knowledgeable in urban climate modelling; • Experienced in using environmental simulation tools, such as UrbanMicroclimateFoam, OpenFOAM, WRF/PALM or other
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methods with the enhanced spatial modelling flexibility of CFD. Scope of Work: Following a successful first phase focused on fundamental model development in OpenFOAM, this second phase will advance the CG
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CFD, thermofluids and machine learning. Experience in Python (or another language), machine learning frameworks, or CFD tools such as OpenFOAM is beneficial but not required. Applicants should hold (or