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Drying Technology
An International Journal
Volume 40, 2022 - Issue 6
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Articles

Pore-scale physics of drying porous media revealed by Lattice Boltzmann simulations

Debashis Pandaa Department of Chemical Engineering, Birla Institute of Technology and Science, Pilani-Hyderabad Campus, Shameerpet, Hyderabad, Telangana, India;
,
Supriya Bhaskarana Department of Chemical Engineering, Birla Institute of Technology and Science, Pilani-Hyderabad Campus, Shameerpet, Hyderabad, Telangana, India;;b Thermal Process Engineering, Otto-von-Guericke-Universität Magdeburg, Magdeburg, Germany
,
Shubhani Paliwala Department of Chemical Engineering, Birla Institute of Technology and Science, Pilani-Hyderabad Campus, Shameerpet, Hyderabad, Telangana, India;
,
Abdolreza Kharaghanib Thermal Process Engineering, Otto-von-Guericke-Universität Magdeburg, Magdeburg, Germany
,
Evangelos Tsotsasb Thermal Process Engineering, Otto-von-Guericke-Universität Magdeburg, Magdeburg, Germany
&
Vikranth Kumar Surasania Department of Chemical Engineering, Birla Institute of Technology and Science, Pilani-Hyderabad Campus, Shameerpet, Hyderabad, Telangana, India;Correspondence[email protected]
Pages 1114-1129 | Received 22 Jun 2020, Accepted 04 Nov 2020, Published online: 09 Dec 2020
 
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Abstract

In this study, the Shan Chen Lattice Boltzmann method (LBM) is implemented to simulate pore-scale physics of drying porous media. The pore-scale mechanisms responsible for multiphase fluid transport in drying porous media are revisited, and the physical effects such as capillary valve effect and Haines jumps are delineated. Fluctuations observed in drying rate curves are realized to be caused by Haines jumps during the fast invasion of the gas phase into the complex geometry of the pore space. Furthermore, it is observed that the fluctuations are significant in the initial period of drying and diminish as the drying front recedes into the porous medium. The observed fluctuations in drying rate curves render the inspiration to reconcile LBM and pore network model as a hybrid pore-scale technique to track the micro–macro interactions in drying porous media.

Disclosure statement

No potential conflict of interest was reported by the authors.

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