Global ETD Search

1	The theoretical determination of the fluid potential distribution in jointed rocks Caldwell, Jack A 13 January 2015 (has links) No description available. Fluid dynamics Rocks--Permeability
2	Multiscale flow and transport in highly heterogeneous carbonates Zhang, Liying, Bryant, Steven L. Jennings, James W., January 2005 (has links) (PDF) Thesis (Ph. D.)--University of Texas at Austin, 2005. / Supervisors: Steven L. Bryant and James W. Jennings Jr. Vita. Includes bibliographical references. Carbonate rocks. Permeability.
3	Scaling parameters for characterizing gravity drainage in naturally fractured reservoir Miguel-Hernandez, Nemesio 28 August 2008 (has links) Not available / text Rocks--Fracture--Simulation methods Rocks--Permeability
4	Permeability evolution as a result of fluid-rock interaction Astakhov, Dmitriy Konstantinovich 05 1900 (has links) No description available. Rocks Permeability Rocks Fracture Fluid dynamics
5	Permeability studies in rock fractures Wong, Wing-yee, 黃詠儀 January 2002 (has links) published_or_final_version / Applied Geosciences / Master / Master of Science Groundwater - China - Hong Kong. Rocks - Permeability. Rock mechanics.
6	Group invariant solutions for a pre-existing fracture driven by a non-Newtonian fluid in permeable and impermeable rock Fareo, Adewunmi Gideon 02 May 2013 (has links) A thesis submitted to the Faculty of Science, University of the Witwatersrand, Johannesburg, South Africa, in fulfilment of the requirements for the degree of Doctor of Philosophy, 2013. / The aim of the thesis is to derive group invariant, exact, approximate analytical and numerical solutions for a two-dimensional laminar, non-Newtonian pre-existing hydraulic fracture propagating in impermeable and permeable elastic media. The fracture is driven by the injection of an incompressible, viscous non-Newtonian fluid of power law rheology in which the fluid viscosity depends on the magnitude of the shear rate and on the power law index n > 0. By the application of lubrication theory, a nonlinear diffusion equation relating the half-width of the fracture to the fluid pressure is obtained. When the interface is permeable the nonlinear diffusion equation has a leak-off velocity sink term. The half-width of the fracture and the net fluid pressure are linearly related through the PKN approximation. A condition, in the form of a first order partial differential equation for the leak-off velocity, is obtained for the nonlinear diffusion equation to have Lie point symmetries. The general form of the leak-off velocity is derived. Using the Lie point symmetries the problem is reduced to a boundary value problem for a second order ordinary differential equation. The leak-off velocity is further specified by assuming that it is proportional to the fracture half-width. Only fluid injection at the fracture entry is considered. This is the case of practical importance in industry. Two exact analytical solutions are derived. In the first solution there is no fluid injection at the fracture entry while in the second solution the fluid velocity averaged over the width of the fracture is constant along the length of the fracture. For other working conditions at the fracture entry the problem is solved numerically by transforming the boundary value problem to a pair of initial value problems. The numerical solution is matched to the asymptotic solution at the fracture tip. Since the fracture is thin the fluid velocity averaged over the width of the fracture is considered. For the two analytical solutions the ratio of the averaged fluid velocity to the velocity of the fracture tip varies linearly along the fracture. For other working conditions the variation is approximately linear. Using this observation approximate analytical solutions are derived for the fracture half-width. The approximate analytical solutions are compared with the numerical solutions and found to be accurate over a wide range of values of the power-law index n and leak-off parameter β. The conservation laws for the nonlinear diffusion equation are investigated. When there is fluid leak-off conservation laws of two kinds are found which depend in which component of the conserved vector the leak-off term is included. For a Newtonian fluid two conservation laws of each kind are found. For a non-Newtonian fluid the second conservation law does not exist. The behaviour of the solutions for shear thinning, Newtonian and shear thickening fluids are qualitatively similar. The characteristic time depends on the properties of the fluid which gives quantitative differences in the solution for shear thinning, Newtonian and shear thickening fluids. Hydraulic fracturing. Rocks - Permeability. Fluid mechanics - Mathematical models.
7	Hydraulic fracture with Darcy and non-Darcy flow in a porous medium Nchabeleng, Mathibele Willy January 2017 (has links) A dissertation submitted to the Faculty of Science,University of the Witwatersrand, in fulfilment of the requirements for the degree of Master of Science. December 2016. / This research is concerned with the analysis of a two-dimensional Newtonian fluid-driven fracture in a permeable rock. The fluid flow in the fracture is laminar and the fracture is driven by the injection of a Newtonian fluid into it. Most of the problems in litera- ture involving fluid flow in permeable rock formation have been modeled with the use of Darcy's law. It is however known that Darcy's model breaks down for flows involv- ing high fluid velocity, such as the flow in a porous rock formation during hydraulic fracturing. The Forchheimer flow model is used to describe the non-Darcy fluid flow in the porous medium. The objective of this study is to investigate the problem of a fluid-driven fracture in a porous medium such that the flow in the porous medium is non-Darcy. Lubrication theory is applied to the system of partial di erential equations since the fracture that is considered is thin and its width slowly varies along its length. For this same reason, Perkins-Kern-Nordgren approximation is adopted. The theory of Lie group analysis of differential equations is used to solve the nonlinear coupled sys- tem of partial differential equations to obtain group invariant solutions for the fracture half-width, leak-o depth and length of the fracture. The strength of fluid leak-off at the fracture wall is classi ed into three forms, namely, weak, strong and moderate. A group invariant solution of the traveling wave form is obtained and an exact solution for the case in which there is weak fluid leak-off at the interface is found. A dimensionless parameter, F0, termed the Forchheimer number was obtained and investigated. Nu- merical results are obtained for both the case of Darcy and non-Darcy flow. Computer generated graphs are used to illustrate the analytical and numerical results. / MT2017 Fluid mechanics--Mathematical models Rocks--Permeability Hydraulic fracturing Porous materials
8	A laboratory facility for testing the performance of borehole plugs in rocks subjected to polyaxial loading Cobb, Steven Lloyd January 1981 (has links) No description available. Rocks -- Permeability.
9	Lithofacies control of porosity trends, Leduc formation, Golden Spike reef complex, Alberta McGillivray, J.G. January 1970 (has links) No description available. Rocks Permeability Porosity
10	Seismic velocities in porous rocks : direct and inverse problems/ Cheng, Chuen Hon Arthur January 1978 (has links) Thesis. 1978. Sc.D.--Massachusetts Institute of Technology. Dept. of Earth and Planetary Science. / MICROFICHE COPY AVAILABLE IN ARCHIVES AND LINDGREN. / Vita. / Bibliography: leaves 212-219. / by Cheng, Chuen Hon Arthur. / Sc.D. Earth and Planetary Sciences Rocks Permeability Rock mechanics Seismic waves

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