Numerical simulation to influence of fluid distribution on acoustic attenuation coefficient in gas water two-phase fractured media

The equivalent fluid model simplifies the actual distribution state of fluid, and the relationship between rock elastic properties and pore fluid parameters established by the equivalent fluid model usually deviates greatly from the experimental results. A random discrete fracture model is established, and the gas-water two-phase distribution in fracture pores is described in detail. Based on the acoustic wave theory, the finite difference numerical simulation of the acoustic wave field of the rock sample model is carried out. The variation law of acoustic attenuation coefficient with saturation under the different pore fluid distribution modes is analyzed. It is of great significance to the prediction of rock pore structure and the identification of reservoir fluid.