Molecular Dynamics of Kapitza Resistance at the Solid-Liquid Interface of Nanofluidic Channels

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2014

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Cranfield University

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Thesis or dissertation

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Abstract

This project sought to study the heat transfer and Kapitza resistance of fluids across interfaces, nanopores and nanochannels with varying sti.ness constants, mass and energy intermolecular in- teraction strength of wall and fluid particles. An Einstein-Maxwell molecular dynamics thermal wall model is developed. The developed modeling approach is shown to provide dual energy and momentum transport exchange across solid-liquid interfaces and nanofluidic channels. Cont/d.

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© Cranfield University 2014. All rights reserved. No part of this publication may be reproduced without the written permission of the copyright holder.

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