Method for identifying a medium structure coupling and a fracture network morphology of a shale gas reservoir

What is claimed is: 1 . A method for identifying a medium structure coupling and a fracture network morphology of a shale gas reservoir, comprising the following steps: (1) categorizing the fracture network morphology: performing a fracturing test on shale cores by using a modified Brazilian disc test, categorizing the fracture network morphology as a tree-like fracture network, a feather-like fracture network, a tufted fracture network, and a meshed fracture network; (2) performing a shale matrix-fracture structure and stress sensitivity test: selecting the shale cores having different fracture network morphology in the step (1), performing the shale matrix-fracture structure and stress sensitivity test on the shale cores by a core displacement experiment, recording parameters of permeability and effective stress of the shale core; (3) determining a stress sensitivity constant of different fracture network morphology: according to the parameters of the permeability and the effective stress of the shale cores having the different fracture morphology in the step (2) under different stress conditions, fitting experimental data in a form of an exponential function, and obtaining the stress sensitivity constant; and (4) preparing an identification chart of the fracture network morphology: according to a measured stress sensitivity constant of four types of the fracture network morphology obtained in the step (3), establishing a model of the effective stress and a production well flow, and normalizing a flow parameter to form the identification chart of the fracture network morphology. 2 . The method for identifying the medium structure coupling and the fracture network morphology of the shale gas reservoir according to claim 1 , wherein, in the step (3), fitting the experimental data in the form of the exponential function is specified as follows: according to a method of the effective stress, a mathematical formula of the effective stress and a change rate of the permeability is as follows: K=K 0 e −b(σ−αp) , in the mathematical formula, σ is a pressure of overlying strata, and a unit of the pressure is MPa; p is a pore pressure of reservoir strata, and a unit of the pore pressure is MPa; α is a coefficient of the effective stress; K 0 is the permeability of a rock when the effective stress is zero, and a unit of the permeability is 10 −3 μm 2 ; K is the permeability under conditions of arbitrary formation pressures, and the unit of the permeability is 10 −3 μm 2 ; b is the stress sensitivity constant, and a unit of the stress sensitivity constant is Mpa −1 ; wherein, the shale gas reservoir has characteristics of a microcrack development, then α is set as 1. 3 . The method for identifying the medium structure coupling and the fracture network morphology of the shale gas reservoir according to claim 1 , wherein, a process of preparing the identification chart of the fracture network morphology in the step (4) comprises: preparing a stress sensitivity chart of different fracture network morphology based on the shale matrix-fracture structure and stress sensitivity test in the step (2), wherein an abscissa of the stress sensitivity chart represents the effective stress, and an ordinate of the stress sensitivity chart represents a normalized flow parameter. 4 . The method for identifying the medium structure coupling and the fracture network morphology of the shale gas reservoir according to claim 3 , wherein, the normalized flow parameter is a ratio of a current daily gas production to a daily peak gas production.