Contact Dynamic Modelling of a Liquid Droplet between Two Approaching Porous Materials

Homayun K. Navaz; Ali Zand; Theresa Atkinson; Albert Nowakowski; Amir Gat; Sari Paikoff

doi:10.1002/aic.14387

Contact Dynamic Modelling of a Liquid Droplet between Two Approaching Porous Materials

Homayun K. Navaz, Ali Zand, Theresa Atkinson, Albert Nowakowski, Amir Gat, Sari Paikoff

Kettering University

Research output: Contribution to journal › Article › peer-review

Abstract

A computational fluid dynamics model based on a finite difference solution to mass and momentum conservation equations (Navier–Stokes equations) for a liquid droplet transport between two porous or nonporous contacting surfaces (CSs) is developed. The CS dynamic (equation of motion) and the spread of the incompressible liquid available on the primary surface for transfer are coupled with the Navier–Stokes equations. The topologies of the spread dynamic between and inside both surfaces (primary and CSs) are compared with experimental data. The amount of mass being transferred into the CS, predicted by the model, is also compared to the experimental measurements. The impact of the initial velocity on the spread topology and mass transfer into the pores is addressed.

Original language	American English
Journal	AIChE Journal
Volume	60
DOIs	https://doi.org/10.1002/aic.14387
State	Published - Jan 28 2014

Keywords

Computational fluid dynamics
Porous media
Fluid mechanics
Mass transfer

Disciplines

Mechanical Engineering

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10.1002/aic.14387License: CC BY

https://aiche.onlinelibrary.wiley.com/doi/full/10.1002/aic.14387

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title = "Contact Dynamic Modelling of a Liquid Droplet between Two Approaching Porous Materials",

abstract = " A computational fluid dynamics model based on a finite difference solution to mass and momentum conservation equations (Navier–Stokes equations) for a liquid droplet transport between two porous or nonporous contacting surfaces (CSs) is developed. The CS dynamic (equation of motion) and the spread of the incompressible liquid available on the primary surface for transfer are coupled with the Navier–Stokes equations. The topologies of the spread dynamic between and inside both surfaces (primary and CSs) are compared with experimental data. The amount of mass being transferred into the CS, predicted by the model, is also compared to the experimental measurements. The impact of the initial velocity on the spread topology and mass transfer into the pores is addressed.",

keywords = "Computational fluid dynamics, Porous media, Fluid mechanics, Mass transfer",

author = "Navaz, {Homayun K.} and Ali Zand and Theresa Atkinson and Albert Nowakowski and Amir Gat and Sari Paikoff",

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volume = "60",

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TY - JOUR

T1 - Contact Dynamic Modelling of a Liquid Droplet between Two Approaching Porous Materials

AU - Navaz, Homayun K.

AU - Zand, Ali

AU - Atkinson, Theresa

AU - Nowakowski, Albert

AU - Gat, Amir

AU - Paikoff, Sari

PY - 2014/1/28

Y1 - 2014/1/28

N2 - A computational fluid dynamics model based on a finite difference solution to mass and momentum conservation equations (Navier–Stokes equations) for a liquid droplet transport between two porous or nonporous contacting surfaces (CSs) is developed. The CS dynamic (equation of motion) and the spread of the incompressible liquid available on the primary surface for transfer are coupled with the Navier–Stokes equations. The topologies of the spread dynamic between and inside both surfaces (primary and CSs) are compared with experimental data. The amount of mass being transferred into the CS, predicted by the model, is also compared to the experimental measurements. The impact of the initial velocity on the spread topology and mass transfer into the pores is addressed.

AB - A computational fluid dynamics model based on a finite difference solution to mass and momentum conservation equations (Navier–Stokes equations) for a liquid droplet transport between two porous or nonporous contacting surfaces (CSs) is developed. The CS dynamic (equation of motion) and the spread of the incompressible liquid available on the primary surface for transfer are coupled with the Navier–Stokes equations. The topologies of the spread dynamic between and inside both surfaces (primary and CSs) are compared with experimental data. The amount of mass being transferred into the CS, predicted by the model, is also compared to the experimental measurements. The impact of the initial velocity on the spread topology and mass transfer into the pores is addressed.

KW - Computational fluid dynamics

KW - Porous media

KW - Fluid mechanics

KW - Mass transfer

UR - https://digitalcommons.kettering.edu/mech_eng_facultypubs/180

UR - https://aiche.onlinelibrary.wiley.com/doi/full/10.1002/aic.14387

U2 - 10.1002/aic.14387

DO - 10.1002/aic.14387

M3 - Article

VL - 60

JO - AIChE Journal

JF - AIChE Journal

ER -

Contact Dynamic Modelling of a Liquid Droplet between Two Approaching Porous Materials

Abstract

Keywords

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