Benchmark Simulations of Dense Suspensions Flow Using Computational Fluid Dynamics

The modeling of fresh concrete flow is still very challenging. Nevertheless, it is of highest relevance to simulate these industrially important materials with sufficient accuracy. Often, fresh concrete is assumed to show a Bingham-behavior. In numerical simulations, regularization must be used to p...

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Bibliographic Details
Published in:Frontiers in materials 2022-05, Vol.9
Main Authors: Haustein, M. A., Eslami Pirharati, M., Fataei, S., Ivanov, D., Jara Heredia, D., Kijanski, N., Lowke, D., Mechtcherine, V., Rostan, D., Schäfer, T., Schilde, C., Steeb, H., Schwarze, R.
Format: Article
Language:English
Subjects:
CFD
FEM
fresh concrete flow
FVM
rheology
suspension
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Summary:The modeling of fresh concrete flow is still very challenging. Nevertheless, it is of highest relevance to simulate these industrially important materials with sufficient accuracy. Often, fresh concrete is assumed to show a Bingham-behavior. In numerical simulations, regularization must be used to prevent singularities. Two different regularization models, namely the 1) Bi-viscous, and 2) Bingham-Papanastasiou are investigated. Those models can be applied to complex flows with common simulation methods, such as the Finite Volume Method (FVM), Finite Element Method (FEM) and Smoothed Particle Hydrodynamics (SPH). Within the scope of this investigation, two common software packages from the field of FVM, namely Ansys Fluent and OpenFOAM, COMSOL Multiphysics (COMSOL) from FEM side, and HOOMD-blue.sph from the field of SPH are used to model a reference experiment and to evaluate the modeling quality. According to the results, a good agreement of data with respect to the velocity profiles for all software packages is achieved, but on the other side there are remarkable difficulties in the viscosity calculation especially in the shear- to plug-flow transition zone. Also, a minor influence of the regularization model on the velocity profile is observed.
ISSN:2296-8016
2296-8016
DOI:10.3389/fmats.2022.874144