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Thermal interaction effects in micro and Nanofluid flows
Nikolaos Asproulis
,
Dimitris Drikakis
Cranfield University
Fluid Mechanics and Computational Science Group
Research output
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Contribution to journal
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Conference article
›
peer-review
Overview
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Keyphrases
Interaction Effect
100%
Microflow
100%
Nanofluid Flow
100%
Thermal Interaction
100%
Computational Model
50%
Direct Impact
50%
Microdevice
50%
Heat Transfer
50%
Molecular Dynamics Simulation
50%
Nanofluidic Devices
50%
Solid Boundary
50%
Solid-liquid Interface
50%
Bond Stiffness
50%
Thermal Walls
50%
Wall Model
50%
Thermal Transfer
50%
Thermal Phenomena
50%
Thermalization
50%
Engineering
Interaction Effect
100%
Nanofluid
100%
Nanofluidics
50%
Solid Boundary
50%
Solid Bond
50%
Computer Simulation
50%
Heat Transfer
50%
Material Science
Nanofluidics
100%
Liquid Interface
100%
Chemical Engineering
Heat Transfer
100%