在河成油藏压力测试分析中可以综合应用地质和地震数据。应用从地震和测井数据得出的 310 5 85 1格“孔隙管”生成一个 712 8格的三维模型 ,可以估算储层特性 ,它包括渗透率、表皮因子、渗透率孔隙度关系、储层连续性和断层因素。同比放大孔隙管得出数值试井模拟模型后 ,使用自动历史拟合法来拟合试井。本文记录了从孔隙管生成三维试井模型的研发过程以及如何得到满意的试井历史拟合的步骤。早期曾用常规试井模型拟合试井数据 ,并对振幅图产生的特征施加变量 ,效果不令人满意。该常规方法意味着 :生产井穿过一个双层而不连通储层 ,高渗透层全方位封闭 ,低渗透层波及范围很广。同比放大的技术很多 ,分析井动态时的工作重点是从垂直方向放大。介绍的同比放大方法是概念性的 ,并且全部采用有效数据 Geological and seismic data can be applied synthetically in the stress analysis of the river into a reservoir. Applying a 3-D model of 712 8 grids from a 310 5 85 1-cell “pore tube” derived from seismic and logging data, reservoir characteristics can be estimated, including permeability, epidermal factors, permeability porosity, reservoir Continuity and fault factors. After expanding the aperture tube to obtain the numerical well test simulation model, the automatic history fitting method was used to fit the well test. This paper documents the development of a 3D well test model from a pore tube and how to get a satisfactory history of well testing. In the early years, conventional well testing models were used to fit well test data and to apply variables to the features produced by the amplitude map, with unsatisfactory results. The conventional method means that the production well passes through a double layer without connecting to the reservoir, the high permeability layer is closed in all directions and the low permeability layer has a wide range of spread. Zoom in on a lot of technology, analysis of well dynamic focus is to zoom in from the vertical direction. The method of amplification introduced in the same year is conceptual and fully validated