RT Journal Article ID 007309207337b6b2 A1 Lesnic, Daniel A1 Harris, Simon D. A1 Elliott, Lionel A1 Mustata, Radu A1 Clennell, M. Ben A1 Ingham, Derek B. T1 Identification of the Hydraulic Properties of Heterogeneous Rocks from Laboratory Flow-Pump Experiments JF Journal of Porous Media JO JPM YR 2007 FD 2007-02-01 VO 10 IS 1 SP 71 OP 92 AB Transient flow analysis has numerous geophysical and geotechnical applications and it is necessary for the understanding and development of laboratory measurement techniques in rock and soil mechanics, particularly in the determination of their permeabilities. In this paper, we model a laboratory flow-pump permeability test and formulate an inversion technique in order to retrieve homogeneous/spacewise dependent/discontinuous properties of materials. The direct problem is solved using boundary element or finite difference methods, while the recovery of the hydraulic properties of rocks is sought through a genetic algorithm (GA) optimization approach. Well-known constrained optimization routines are often trapped in a local optimum due to a poor initial guess, and further require the calculation of the gradient of a least-squares type functional that is assumed to be differentiable. However, GAs find the global optimum and require neither the calculation of the gradient nor the assumption that the functional be differentiable. Both exact and simulated noisy data are incorporated at optimally selected instants in time through the test, the data measurements used being consistent with the sensitivity analysis that is performed prior to inversion. PB Begell House LK https://www.dl.begellhouse.com/journals/49dcde6d4c0809db,546fef491538b3c8,007309207337b6b2.html