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COMPACTION AND EXPANSION OF DEEP RESERVOIRS AND CONFINED AQUIFERS
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References10
Kikani J. and Pedrosa O.A. (1991) Perturbation Analysis of Stress-sensitive reservoirs. SPE Formation Evaluation, 1991. Sept., pp 379-386.
Raghava n, R., Scorer J.D.T. and Miller, F.G., An Investigation by Numerical Methods of the Effect of Pressure-Dependent Rock and Fluid on Well Tests, SPEJ, June 267-75, 1972, Trans., AIME, 253.
Jelmert, T. A. and Selseng, H., Permeability function describes core permeability in stress-sensitive r ocks. Oil and Gas Journal, 96(49), 1998, pp 60-62.
Jelmert, T.A ., Use of Composite Elastic Modulus to Predict Inflow Performance, Ecmore XIV 14th European Conference on Mathematics of Oil Recovery, Catania, Sicily, Italy 8-11 September 2014.
Wyble, D.O., Effect of Applied Pressure on the Conductivity, Porosity and Permeability of Sandstones. T.N. 2022 Trans AIME 213 1958, pp 431-432. NOMENCLATURE B Formation volume factor c Fluid compressibility, 1Pa nT Normalized transmissibility function, given by eq.(5) nT Change in normalized transmissibility from the reference value, 1nnTT h Thickness, m J Productivity/Injectivity index or rate pr. unit pressure change, eq.(11), 3 1 1Sm s Pa ek Permeability at the external boundary, 2m p ı F luid pressure, Pa ı ewp Pressure decrease/increase between external boundary and well, q Flow rate, 3 /Sm s r Radial distance, m Dr Dimensionless distance, /Dwr r r nr Normalized radial distance, /ner r r ı Greek letters Permeability modulus, 1Pa Composite modulus, eq.(5) Viscosity modulus, 1Pa Thickness modulus, 1Pa International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org
Kikani J. and Pedrosa O.A. (1991) Perturbation Analysis of Stress-sensitive reservoirs. SPE Formation Evaluation, 1991. Sept., pp 379-386.
Raghava n, R., Scorer J.D.T. and Miller, F.G., An Investigation by Numerical Methods of the Effect of Pressure-Dependent Rock and Fluid on Well Tests, SPEJ, June 267-75, 1972, Trans., AIME, 253.
Jelmert, T. A. and Selseng, H., Permeability function describes core permeability in stress-sensitive r ocks. Oil and Gas Journal, 96(49), 1998, pp 60-62.
Jelmert, T.A ., Use of Composite Elastic Modulus to Predict Inflow Performance, Ecmore XIV 14th European Conference on Mathematics of Oil Recovery, Catania, Sicily, Italy 8-11 September 2014.
Wyble, D.O., Effect of Applied Pressure on the Conductivity, Porosity and Permeability of Sandstones. T.N. 2022 Trans AIME 213 1958, pp 431-432. NOMENCLATURE B Formation volume factor c Fluid compressibility, 1Pa nT Normalized transmissibility function, given by eq.(5) nT Change in normalized transmissibility from the reference value, 1nnTT h Thickness, m J Productivity/Injectivity index or rate pr. unit pressure change, eq.(11), 3 1 1Sm s Pa ek Permeability at the external boundary, 2m p ı F luid pressure, Pa ı ewp Pressure decrease/increase between external boundary and well, q Flow rate, 3 /Sm s r Radial distance, m Dr Dimensionless distance, /Dwr r r nr Normalized radial distance, /ner r r ı Greek letters Permeability modulus, 1Pa Composite modulus, eq.(5) Viscosity modulus, 1Pa Thickness modulus, 1Pa International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org
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