A one-dimensional isothermal flow is induced by a step change in the pressure at the boundary of a semi-infinite medium. The early flow is inertia-dominated, in accordance with Ergun’s equation, and is self-similar in the variable x/. The late flow is viscous-dominated, in accordance with Darcy’s law, and is self-similar in the variable x/. Comprehensive numerical results are presented for both of these asymptotic regimes and also for the intermediate transition period which is governed by Forchheimer’s equation. The only explicit parameter is the pressure ratio, N, which is varied from N → ∞ (strong gas-compression), through N → 1 (constant compressibility liquid), to N → 0 (strong gas-rarefaction). The solution procedure is based on a generalized separation-of-variables approach which should also be useful in other problems which possess self-similar asymptotic solutions both at early times and at late times.
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June 1981
Research Papers
Transient Fluid Flow in Porous Media: Inertia-Dominated to Viscous-Dominated Transition
R. H. Nilson
R. H. Nilson
Fluid and Thermal Sciences Department 5510, Sandia National Laboratories, Albuquerque, N.M. 87185
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R. H. Nilson
Fluid and Thermal Sciences Department 5510, Sandia National Laboratories, Albuquerque, N.M. 87185
J. Fluids Eng. Jun 1981, 103(2): 339-343 (5 pages)
Published Online: June 1, 1981
Article history
Received:
November 28, 1980
Online:
October 26, 2009
Citation
Nilson, R. H. (June 1, 1981). "Transient Fluid Flow in Porous Media: Inertia-Dominated to Viscous-Dominated Transition." ASME. J. Fluids Eng. June 1981; 103(2): 339–343. https://doi.org/10.1115/1.3241743
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