In-situ recovery methods for many of our hydrocarbon and mineral resources depend on the ability to create or enhance permeability in the resource bed to allow uniform and predictable flow. To meet this need, a new branch of geomechanics devoted to computer prediction of explosive rock breakage and permeability enhancement has developed. The computer is used to solve the nonlinear equations of compressible flow, with the explosive behavior and constitutive properties of the medium providing the initial/boundary conditions and material response. Once the resulting computational tool has been verified and calibrated with appropriate large-scale field tests, it can be used to develop and optimize commercially used explosive techniques for in-situ resource recovery.

Issue Section:
Research Papers
Topics:
Explosives, Permeability, Computers, Boundary-value problems, Compressible flow, Flow (Dynamics), In situ processing (Mining), Minerals, Nonlinear equations, Resource recovery, Rocks
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 by ASME
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