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Transport in Nanoporous Media

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Fluid flow at nanoscale is closely related to many areas in nature and technology(e.g.,unconventional hydrocarbon recovery,carbon dioxide geo-storage,underground hydrocarbon storage,fuel cells,ocean desalination,and biomedicine).At nanoscale,interfacial forces dominate over bulk forces,and nonlinear effects are important,which significantly deviate from conventional theory.During the past decades,a series of experiments,theories,and simulations have been performed to investigate fluid flow at nanos-cale,which has advanced our fundamental knowledge of this topic.However,a critical review is still lack-ing,which has seriously limited the basic understanding of this area.Therefore herein,we systematically review experimental,theoretical,and simulation works on single-and multi-phases fluid flow at nanos-cale.We also clearly point out the current research gaps and future outlook.These insights will promote the significant development of nonlinear flow physics at nanoscale and will provide crucial guidance on the relevant areas.

Transport in nanoporous mediaMulti-phase fluid dynamicsNonlinear flow mechanismsNonlinear flow conservation equationsInterfacial forcesMolecular dynamics simulation

Weiyao Zhu、Bin Pan、Zhen Chen、Wengang Bu、Qipeng Ma、Kai Liu、Ming Yue

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School of Civil and Resource Engineering,University of Science and Technology Beijing,Beijing 100083,China

国家自然科学基金国家自然科学基金Open Research Foundationinitiative funding from the University of Science and Technology Beijing

5197401311372033NEPU-EOR-2019-003

2024

10.1016/j.eng.2023.05.014

工程(英文)

工程(英文)

CSTPCDEI
ISSN:2095-8099
年,卷(期):2024.32(1)
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