Phase control heterogeneous mechanical parameter crustal stress prediction method

A technology with mechanical parameters and heterogeneity, which is applied in the seismology for well logging and other fields, and can solve the problems of low accuracy and large workload of the intra-layer homogeneous model.

Active Publication Date: 2016-06-01
CHINA PETROLEUM & CHEM CORP +1
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Problems solved by technology

[0003] The purpose of the present invention is to provide a method to solve the two major shortcomings of the current domestic in-situ stress prediction boundary conditions, the manual multiple attempts, the heavy workload and the low accuracy of the intra-layer homogeneous model, to provide an optimized inversion to automatically determine the boundary conditions and In-situ stress prediction method considering three-dimensional heterogeneity of mechanical parameters

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  • Phase control heterogeneous mechanical parameter crustal stress prediction method
  • Phase control heterogeneous mechanical parameter crustal stress prediction method
  • Phase control heterogeneous mechanical parameter crustal stress prediction method

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[0024] In order to make the above and other objects, features and advantages of the present invention more comprehensible, preferred embodiments are listed below and described in detail in conjunction with the accompanying drawings.

[0025] Such as figure 2 as shown, figure 2 It is a flow chart of the phase-controlled heterogeneous mechanical parameter ground stress method of the present invention.

[0026] In step 101, a lithofacies interpretation template and a single well lithofacies interpretation are established. Based on the core description and logging data, the lithofacies logging interpretation template is established by combining lithoelectricity, and the lithofacies interpretation of a single well is performed using the logging template to clarify the vertical lithofacies characteristics of each well. Step 101 includes, lithofacies type classification; lithofacies interpretation template establishment; and lithofacies single well interpretation.

[0027] In th...

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Abstract

The present invention provides a phase control heterogeneous mechanical parameter crustal stress prediction method, comprising: a first step of establishing a petrographic interpretation template and performing single well petrographic interpretation; a second step of performing inter-well prediction according to the interpreted all single well petrographic data in combination with seismic attribute data, and establishing a three-dimensional petrographic model; a third step of establishing a p-wave and s-wave time difference relation of different petrographic facies, and solving each single well mechanical parameter; a fourth step of establishing a three-dimensional heterogeneous mechanical parameter model under the control of petrographic facies; and a fifth step of determining a boundary condition of crustal stress finite element simulation, and predicting a three-dimensional crustal stress field. The phase control heterogeneous mechanical parameter crustal stress prediction method achieves finite element crustal stress simulation under a three-dimensional heterogeneous mechanical parameter condition, and the simulation model is closer to real mechanical parameter distribution characteristics of underground geologic bodies than a conventional inner-layer homogeneous mechanical parameter model, thereby greatly improving prediction accuracy of crustal stress.

Description

technical field [0001] The invention relates to the technical field of low-permeability oil field development, in particular to a stress prediction method of phase-controlled heterogeneous mechanical parameters. Background technique [0002] At present, domestic in-situ stress research technologies mainly include on-site stress measurement, logging stress interpretation, core stress measurement and in-situ stress field simulation technology. At present, the main applications of on-site stress measurement are microseismic detection and fracturing construction curves, which are direct measurement methods. Core stress measurement mainly includes using paleomagnetism and acoustic anisotropy to test the horizontal maximum principal stress direction; using differential strain test and acoustic emission test to calculate the magnitude of the triaxial principal stress. In-situ stress interpretation of well logging mainly uses dip logging and image logging to interpret the direction...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01V1/40
Inventor 李志鹏刘显太杨勇郭迎春杜玉山吕广忠任允鹏陈利杨明林姜官波刘峰孙玉花李坚王玮王瑞
Owner CHINA PETROLEUM & CHEM CORP
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