Record Display for the EPA National Library Catalog

RECORD NUMBER: 8 OF 9

OLS Field Name OLS Field Data
Main Title Unsteady Inertial Effects in Fluid Flow Through Porous Media.
Author Spoone, John A. ;
CORP Author Wisconsin Univ., Madison. Water Resources Center.
Year Published 1971
Report Number DI-14-01-0001-1957; OWRR-B-021-WIS; 10643,; B-021-WIS(2)
Stock Number PB-201 744
Additional Subjects ( Unsteady flow ; Porous materials) ; ( Ground water ; Fluid flow) ; Inertia ; Equations of motion ; Partial differential equations ; Hydrostatic pressure ; Hydraulic conductivity ; Darcys Law ; Permeability ; Compressibility ; Fourier series ; Computer programs ; Theses ;
Holdings
Library Call Number Additional Info Location Last
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Status
NTIS  PB-201 744 Most EPA libraries have a fiche copy filed under the call number shown. Check with individual libraries about paper copy. NTIS 06/23/1988
Collation 157p
Abstract
Linear inertial terms are included in the momentum equation for the unsteady flow. The continuity equation is given in terms of the compressibilities of the constituents involved--solid, gas, and/or liquid. When these two equations are combined, the result is a hyperbolic partial differential equation for pressure. The solution of this equation is used to describe the propagation of pressure waves in the fluid in the porous medium. Theoretical solutions for a harmonic, repetitive pulse, and step input in pressure are obtained. The frequency dependence of the hydraulic conductivity is demonstrated when harmonic or repetitive pulses are considered. The hydraulic conductivity is time dependent when a step variation in pressure is introduced. Experimental measurements were conducted on air dry, liguid saturated, partially liquid saturated, and drained sands. The results of the experiments were found to be in agreement with the theory for all but the liquid saturated case. Methods for determining the static (Darcy) hydraulic conductivity and compressibility using sound wave propagation are developed and applied. (Author)