Transport of Fluids in Nanoporous Materials

Fluid transport in narrow pores is central to the design and optimization of nanoporous materials in industrial applications, such as catalysis, nanofluids, electrochemical batteries, and membrane separation. However, due to the strong potential field in nanopores, conventional models and methods ha...

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主要な著者: Suresh K. Bhatia (Ed.), Guozhao Ji (Ed.), Xuechao Gao (Ed.), David Nicholson (Ed.)
フォーマット: Online
言語:英語
出版事項: MDPI - Multidisciplinary Digital Publishing Institute 2021
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オンライン・アクセス:32103
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author Suresh K. Bhatia (Ed.)
Guozhao Ji (Ed.)
Xuechao Gao (Ed.)
David Nicholson (Ed.)
author_browse David Nicholson (Ed.)
Guozhao Ji (Ed.)
Suresh K. Bhatia (Ed.)
Xuechao Gao (Ed.)
author_facet Suresh K. Bhatia (Ed.)
Guozhao Ji (Ed.)
Xuechao Gao (Ed.)
David Nicholson (Ed.)
author_sort Suresh K. Bhatia (Ed.)
collection Directory of Open Access Books
description Fluid transport in narrow pores is central to the design and optimization of nanoporous materials in industrial applications, such as catalysis, nanofluids, electrochemical batteries, and membrane separation. However, due to the strong potential field in nanopores, conventional models and methods have become inadequate for predicting the transport behavior of molecules confined in the pore space. In addition, the inherent complexity of the pore structure in nanomaterials requires consideration of local or nanoscale transport at the single pore level, and averaging over the macroscale, which further impedes the application and validation of the formulated mechanical models. To solve the problem of fluid transport in narrow nanopores beyond Knudsen limits, experimental characterizations should be combined to molecular simulations in order to probe the fluid movement under realistic conditions. This book provides comprehensive perspectives on the current research in the investigation of fluid transport processes in nanomaterials. The articles from leading scholars in this field are conveniently arranged according to three categories based on the approaches used in the papers: modeling and simulation, nanomaterial manipulation and characterization, and practical application. The 14 contributions not only demonstrate the importance of fluid behavior in different applications but also address the main theories and simulations to model the fluid transport behavior in nanoporous materials. This collection shows that “fluid transport in nanomaterials” remains a versatile and vibrant topic in terms of both theories and applications.
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spelling doab-20.500.12854ir-612492024-04-05T12:38:56Z Transport of Fluids in Nanoporous Materials Suresh K. Bhatia (Ed.) Guozhao Ji (Ed.) Xuechao Gao (Ed.) David Nicholson (Ed.) QD1-999 TA401-492 QD450-801 TP155-156 fluid transport pore channel molecular dynamics membrane separation nanoporous material thema EDItEUR::P Mathematics and Science::PN Chemistry Fluid transport in narrow pores is central to the design and optimization of nanoporous materials in industrial applications, such as catalysis, nanofluids, electrochemical batteries, and membrane separation. However, due to the strong potential field in nanopores, conventional models and methods have become inadequate for predicting the transport behavior of molecules confined in the pore space. In addition, the inherent complexity of the pore structure in nanomaterials requires consideration of local or nanoscale transport at the single pore level, and averaging over the macroscale, which further impedes the application and validation of the formulated mechanical models. To solve the problem of fluid transport in narrow nanopores beyond Knudsen limits, experimental characterizations should be combined to molecular simulations in order to probe the fluid movement under realistic conditions. This book provides comprehensive perspectives on the current research in the investigation of fluid transport processes in nanomaterials. The articles from leading scholars in this field are conveniently arranged according to three categories based on the approaches used in the papers: modeling and simulation, nanomaterial manipulation and characterization, and practical application. The 14 contributions not only demonstrate the importance of fluid behavior in different applications but also address the main theories and simulations to model the fluid transport behavior in nanoporous materials. This collection shows that “fluid transport in nanomaterials” remains a versatile and vibrant topic in terms of both theories and applications. 2021-02-12T06:27:57Z 2021-02-12T06:27:57Z 2019-01-25 10:53:11 2019 book 32103 9783038975298 9783038975304 https://directory.doabooks.org/handle/20.500.12854/61249 eng image/jpeg Attribution-NonCommercial-NoDerivatives 4.0 International https://www.mdpi.com/books/pdfview/book/1108 https://play.google.com/books/publish/a/14935057684283403269#details/ISBN:9783038975298 https://www.mdpi.com/books/pdfview/book/1108 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-03897-530-4 10.3390/books978-3-03897-530-4 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783038975298 9783038975304 260 open access
spellingShingle QD1-999
TA401-492
QD450-801
TP155-156
fluid transport
pore channel
molecular dynamics
membrane separation
nanoporous material
thema EDItEUR::P Mathematics and Science::PN Chemistry
Suresh K. Bhatia (Ed.)
Guozhao Ji (Ed.)
Xuechao Gao (Ed.)
David Nicholson (Ed.)
Transport of Fluids in Nanoporous Materials
title Transport of Fluids in Nanoporous Materials
title_full Transport of Fluids in Nanoporous Materials
title_fullStr Transport of Fluids in Nanoporous Materials
title_full_unstemmed Transport of Fluids in Nanoporous Materials
title_short Transport of Fluids in Nanoporous Materials
title_sort transport of fluids in nanoporous materials
topic QD1-999
TA401-492
QD450-801
TP155-156
fluid transport
pore channel
molecular dynamics
membrane separation
nanoporous material
thema EDItEUR::P Mathematics and Science::PN Chemistry
topic_facet QD1-999
TA401-492
QD450-801
TP155-156
fluid transport
pore channel
molecular dynamics
membrane separation
nanoporous material
thema EDItEUR::P Mathematics and Science::PN Chemistry
url 32103
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