Standard theories for two-fluid flow in porous media assume capillary pressure to be in equilibrium. Numericalsimulators often assume that equilibrium capillary pressure–saturation conditions are maintained as changes in fluid saturationare taking place. But recent theories indicate that capillary pressure is perhaps not only a function of saturation butalso rate change, which is known as the dynamic effect. In order to investigate effects of the dynamic capillary pressureon fluid flow in tight gas reservoirs, standard theory and present novel pore-scale and Darcy-scale theoretical approachesthat account for a dynamic capillary pressure were reviewed in this paper. A dynamic capillary pressure relationship wasincluded in the mathematical and numerical schemes were proposed to simulate tight gas reservoir production, which allowsone to identify previously unreported flow scenarios. The numerical schemes were also to modify the Gray and Hassanizadehequation for infiltration to account for a capillary pressure that depends on the flow velocity. This study is ofgreat benefit to finding out the flow law of tight gas reservoir and the subsequent work of exploitation.
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