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A model for the dissipation rate in linear unsteady flow through porous media
Lukas Unglehrt,
Michael Manhart
Associate Professorship of Hydromechanics
Technical University of Munich
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Keyphrases
Unsteady Flow
100%
Dissipation Rate
100%
Flow in Porous Media
100%
Transient Flow
66%
Asymptotic Expression
66%
Numerical Simulation
33%
Analytical Solution
33%
Darcy's Law
33%
Cylinder Array
33%
Oscillatory Flow
33%
Circular Tube
33%
Sphere Pack
33%
Boundary Layer Theory
33%
Small-time Asymptotics
33%
Volterra
33%
Large-time Asymptotics
33%
Engineering
Dissipation Rate
100%
Unsteady Flow
100%
Transients
66%
Obtained Expression
33%
Circular Tubes
33%
Oscillatory Motion
33%
Boundary Layer Theory
33%
Darcy Law
33%
Oscillating Flow
33%
Mathematics
Dissipation Rate
100%
Asymptotics
66%
Boundary Layer Theory
33%