摘要
The reservoir permeability of tight sandstone gas reservoirs is low,which makes it difficult to carry out displacement flow experiments on real cores underground conditions,so the microscopic flow mechanism can be hardly studied.Based on the lattice Boltzmann method(LBM),this paper simulated the flow process of formation water displaced by tight gas under the simulated reservoir conditions of high temperature and high pressure to clarify the distribution of bound water in the reservoir.Then,reservoir drying was experimentally studied using the laser etching model,and numerical simulation of reservoir drying was simplified by referring to the visualization results of the experiment.Finally,the influence of reservoir drying on the seepage capacity of tight gas was studied by means of numerical simulation.And the following research results were obtained.First,when the lattice Boltzmann model is used for high temperature and high pressure reservoirs,it satisfies the Laplace law and its numerical solution of two-phase Poiseuille flow rate is basically consistent with the analytical solution,which indicates that this model can be used to simulate gasewater immiscible displacement under reservoir conditions.Second,tight gas preferentially breaks through in large porous media connected channels,and after the breakthrough,the displacement rate of formation water decreases significantly.Third,the contact angle between formation water and rock wall has a significant influence on gasewater two-phase flow.The stronger the water wettability of the rock is,the lower the displacement rate is.Fourth,the bound water in tight sandstone gas reservoirs can be classified into four types,including adsorbed water film,blind end pore water,dead pore water and trapped water.In porous media,a large number of connected microchannels are occupied by trapped water and adsorbed water film and the phenomenon of“water lock”is obvious,which seriously influences the seepage capacity of tight gas in the porous media of reservoir.Fifth,drying agent can react with bound water to produce a large number of bubbles,which will consume adsorbed water film,trapped water and blind end pore water,so as to improve the gas seepage capacity.Sixth,in the“water lock”regions formed by trapped water,the gas seepage capacity can be effectively improved by increasing the drying strength.On the whole,the tight gas permeability increases with the increase of drying strength,but its increase amplitude decreases gradually when the drying strength exceeds a certain degree.
基金
Project supported by the Key Program of the National Natural Science Foundation of China“Basic Research on Drying of Tight Gas Reservoirs and Improvement of Gas Seepage Capacity”(No.51534006).
