10–13 Oct 2022
Europe/Paris timezone

Computer simulations of capillarity-driven water flow in nanoporous silica

11 Oct 2022, 17:00
2h
Poster Contributions Poster session

Speaker

Prof. Patrick Huber (Hamburg University of Technology (TUHH), Hamburg, Germany)

Description

Capillarity-driven flows in pores a few nanometers in diameter play an important role in many natural and technological processes, for example in clay
swelling, frost heave, catalysis and transport across artificial nanostructures, bio-membranes and tissues [1]. Here we present molecular dynamics simulations modelling the capillary flow of water into oriented silica nano-pores (MCM-41) of around 3 nm diameter pore size. By providing implementations of water-water [2], water-silica [3] and silica-silica [4] forcefields we are able to simulate the spontaneous imbibition dynamics of water into the silica pores. In this work we show that during imbibition in longitudinal and radial pore direction anisotropic strains can be observed that can be classified as two distinct types of strain. At the start and the end of the imbibition process the observed strains are almost instantaneous while during the imbibition process there are continuous changes of strain that scale with the imbibition progress. Overall the results of the simulations should lead to better understanding of capillary-driven flows in nanoporous material and the corresponding imbibition-induced strains of the host material on a single-pore scale.

(1) Huber, P. Journal of Physics Condensed Matter 2015, 27, 43.
(2) Abascal, J. L.; Vega, C. The Journal of Chemical Physics 2005, 123,
234505.
(3) Cole, D. J.; Payne, M. C.; Csanyi, G.; Spearing, S. M.; Ciacchi, L. C. Journal of Chemical Physics 2007, 127, 204704.
(4) Meißner, R. H.; Schneider, J.; Schiffels, P.; Colombi Ciacchi, L. Langmuir
2014, 30, 3487–3494.

Primary authors

Mr Lars Dammann (Deutsches Elektronen-Synchrotron DESY) Prof. Robert Meißner (Hamburg University of Technology) Prof. Patrick Huber (Hamburg University of Technology (TUHH), Hamburg, Germany)

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