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Numerical models of gas flow and heat transfer in microscale channels: capturing rarefaction behaviour using a constitutive scaling approach
L. O'Hare, J.M. Reese
Mechanical And Aerospace Engineering
Design, Manufacturing And Engineering Management
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peer-review
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Citations (Scopus)
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Dive into the research topics of 'Numerical models of gas flow and heat transfer in microscale channels: capturing rarefaction behaviour using a constitutive scaling approach'. Together they form a unique fingerprint.
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Physics
Numerical Model
100%
Gas Flow
100%
Rarefaction
100%
Charge Flow Device
50%
Gases
50%
Discontinuity
25%
World
25%
Physics
25%
Boundaries
25%
Utilization
25%
Region
25%
Momentum
25%
Solid Surfaces
25%
Model
25%
Nonequilibrium Flow
25%
Mean Free Path
25%
Half Spaces
25%
Couette Flow
25%
Solid State
25%
Chemistry
Heat Transfer
100%
Gas Flow
100%
Flow
75%
Solid
50%
Gas
50%
Surface
25%
Momentum
25%
Analytical Method
25%
Application
25%
Nonequilibrium
25%
Energy
25%
Material Science
Rarefied Gas Flows
75%
Gas
50%
Solid
50%
Engineering
Space Problem
25%
Engineering Problem
25%
Computer Science
Observed Behavior
25%
Engineering Problem
25%