![]() Well test analysis of data dominated by storage and skin: Non-Newtonian power-law fluids. Pressure transient behavior of non-Newtonian/Newtonian fluid composite reservoirs. Flow of non-Newtonian power law fluids through porous media. Transient flow of non-Newtonian power-law fluids in porous media. Society of Petroleum Engineers Journal, 1969, 9 (1): 80- 88. Steady-state and unsteady-state flow of non-Newtonian fluids through porous media. Chinese Journal of Computational Physics, 2020, 37 (2): 189- 197. An interpretation method with "well-cave-crack" model of dissolves reservoir considering gravity factors. ![]() Abu Dhabi International Petroleum Exhibition & Conference, Society of Petroleum Engineers, 2020. Understanding Mauddud waterflood performance in a heterogeneous carbonate reservoir with surveillance data and ensemble of analytical tools. KONWAR L, ALOWAINATI E, NEMMAWI N, et al. Journal of Natural Gas Science and Engineering, 2020, 103319. Pressure-transient analysis in shale gas reservoirs: A review. Chinese Journal of Computational Physics, 2019, 36 (1): 47- 52.ĪFAGWU C, ABUBAKAR I, KALAM S, et al. Transient pressure for a fractured well with asymmetric fracture. Chinese Journal of Computational Physics, 2019, 36 (5): 559- 568. Characteristics of transient pressure for multiple fractured horizontal wells in fractal fractured shale gas reservoirs. SPE Hydraulic Fracturing Technology Conference and Exhibition, Society of Petroleum Engineers, 2019.ĭING M C, WU M L, LI X, et al. Poroelastic pressure transient analysis: A new method for interpretation of pressure communication between wells during hydraulic fracturing. Chinese Journal of Computational Physics, 2015, 32 (5): 595- 602. Linear element method for multi-angle fractured horizontal well in anisotropic reservoir. ![]() Journal of Petroleum Technology, 1968, 20 (9): 989- &.įANG S D, CHENG L S, XIN Y N, et al. Pressure transient analysis of naturally fractured reservoirs. The conclusions are applicable to similar nonlinear problems in pressure transient analysis. The numerical method is more suitable for polymer-flooding system. It is found that the permeability obtained with superposition principle method is very small, which shows that the superposition principle method cannot be used to solve the nonlinear model for pressure transient analysis in polymer-flooding system. Shut-in pressure data of an injection well in a polymer-flooding system was interpreted. It shows that shut-in bottom-hole pressure computed with superposition principle method is much lower than the numerical result for polymer-flooding system, which indicating that the superposition principle cannot be used for pressure transient analysis in polymer-flooding system. The shut-in pressures from numerical solution were compared with those obtained with the superposition principle method. The governing equations were discretized by finite volume method with a hybrid grid consisting of Cartesian meshes with radial refinement around well positions. A mathematical model for pressure transient analysis in polymer-flooding system was established, in which the shear thinning effect of non-Newtonian polymer solution is considered.
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