## What is/are Multiphase Cfd?

Multiphase Cfd - The collector was tested experimentally following a standard procedure and using a multiphase CFD-model of the device.^{[1]}

## multiphase cfd model

A numerical study has been performed to validate the multiphase CFD model (DPM) by comparing its results to the experimental data of an air/mist film cooling study.^{[1]}A multiphase CFD model is applied to simulate fog formation during the mixing of cold AAV effluents and warm & humid ambient air.

^{[2]}Our study demonstrates the capability of multiphase CFD model to predict the solid and fluid flow behaviors, and analyze the PSD of fertilizer granules inside the inclined rotary drum granulator.

^{[3]}Similar exercises are encouraged to support the confident application of multiphase CFD models, together with the definition of a set of experiments accepted community-wide for model benchmarking.

^{[4]}The present paper describes a multiphase CFD model of the collector, which was validated against two independent experimental datasets.

^{[5]}The solids concentration was practically uniform across the tank except for the region near the surface, and this was reproduced in the multiphase CFD model.

^{[6]}In this study, a multiphase CFD model with population balance equations are used to model gas–liquid mixing, as well as gas bubble distribution, in a 50 L single‐use bioreactor vessel.

^{[7]}The aim of this paper is to calibrate a Eulerian–Eulerian multiphase CFD model for the discharge process of an off-road self-loading concrete mixer drum, by using the viscosity model applied to fresh concrete.

^{[8]}In this work, incorporating all the anisotropic nature of the gas diffusion layers (GDLs), a three-dimensional, multiphase CFD model is built to perform a comparative study of several types of cathode flow field designs.

^{[9]}In this study, we proposed a comprehensive 3D multiphase CFD model of a PEMFC with a new flow field pattern at the cathode side.

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## multiphase cfd simulation

Multiphase CFD simulation methods such as level set or coupled level set–volume of fluid typically require a validated dynamic contact angle model as a function of capillary number to accurately resolve the near wall behaviour.^{[1]}To reduce the computational cost associated with gas-solid flow simulations required for UQ analysis, techniques commonly used in the area of artificial intelligence (AI) and data mining are used to construct smart proxy models, which can reduce the computational cost of conducting large numbers of multiphase CFD simulations.

^{[2]}Transient multiphase CFD simulation is an efficient and reliable tool to predict flow patterns inside ESPs.

^{[3]}In the present work, a multiphase CFD simulation methodology has been developed and proposed for the estimation of the spatial distribution of values in a bench-scale reactor equipped with a self-inducing impeller.

^{[4]}Multiphase CFD simulation models are a most recent development; they model sediment transport as a granular flow to predict the sand movement and analyse the scour depth.

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## multiphase cfd code

In this paper, the P-CG and Preconditioned Chebyshev Basis CA CG (P-CBCG) solvers in the multiphase CFD code JUPITER are ported to the latest V100 GPUs.^{[1]}The data are then modeled adopting the multiphase CFD code DropletSMOKE++ , describing the flow field around the droplet, the heating rate and the evaporation process.

^{[2]}The computational results show, that the developed model presents an important upgrade to the single stage spray drying model, as used in the majority of multiphase CFD codes.

^{[3]}Using a discrete forcing method (see the work of Benguigui et al) (implemented in a multiphase CFD code based on a two-fluid approach) to track the solid motion in two-phase flow, an iterative fluid-structure coupling is developed to allow free-motion of multiple solids (with any kind of geometry) due to two-phase fluid forces.

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## multiphase cfd solver

A phase equilibrium solver based on the model by Yue and Reitz [ 1 ] was implemented: a fully multiphase CFD solver is employed with an engineering-size engine grid, and fuel injection is modeled using the standard Lagrangian parcels approach.^{[1]}Investigation of DHAHT performance and interactions with the free surface are of great importance and are investigated numerically in the present work using a multiphase CFD solver.

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