Dynamic Properties of Double Porosity/Permeability Model

Author:

Nakshatrala Kalyana B.1

Affiliation:

1. University of Houston Civil and Environmental Engineering, , Houston, TX 77204

Abstract

Abstract Understanding fluid movement in multi-pored materials is vital for energy security and physiology. For instance, shale (a geological material) and bone (a biological material) exhibit multiple pore networks. Double porosity/permeability models provide a mechanics-based approach to describe hydrodynamics in aforesaid porous materials. However, current theoretical results primarily address steady-state response, and their counterparts in the transient regime are still wanting. The chief aim of this paper is to fill this knowledge gap. We present three principal properties—with rigorous mathematical arguments—that the solutions under the double porosity/permeability model satisfy in the transient regime: backward-in-time uniqueness, reciprocity, and a variational principle. We employ the “energy method”—exploiting the physical total kinetic energy of the flowing fluid—to establish the first property and Cauchy–Riemann convolutions to prove the next two. The results reported in this paper—qualitatively describe the dynamics of fluid flow in double-pored media—have (a) theoretical significance, (b) practical applications, and (c) considerable pedagogical value. In particular, these results will benefit practitioners and computational scientists in checking the accuracy of numerical simulators. The backward-in-time uniqueness lays a firm theoretical foundation for pursuing inverse problems in which one predicts the prescribed initial conditions based on data available about the solution at a later instance.

Publisher

ASME International

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