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A Calibration Method for Improving the Accuracy of Seismic Interpretation of Faulted Structures

A technology of seismic interpretation and calibration method, which is applied in seismology, seismic signal processing, geophysical measurement, etc., and can solve the problems of low precision of seismic tectonic interpretation and large calibration error

Active Publication Date: 2021-08-20
CHINA PETROLEUM & CHEM CORP +1
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Problems solved by technology

[0003] The purpose of the present invention is to provide a calibration method for improving the accuracy of seismic interpretation of fault-step structures, which overcomes the problem in the prior art that wells in different fault-steps use the same time-depth conversion relationship, resulting in wells in different fault steps The calibration error between the drilled formation and the corresponding seismic phase is large, resulting in low accuracy of seismic tectonic interpretation

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  • A Calibration Method for Improving the Accuracy of Seismic Interpretation of Faulted Structures
  • A Calibration Method for Improving the Accuracy of Seismic Interpretation of Faulted Structures
  • A Calibration Method for Improving the Accuracy of Seismic Interpretation of Faulted Structures

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Embodiment Construction

[0025] In the following, the time-depth conversion method of the present invention will be further described by taking the fine earthquake interpretation in the Qingzu area of ​​the Dongpu Sag as an example in conjunction with the accompanying drawings.

[0026] 1. Use the seismic data of the target area to divide the fault steps in the fault step structure, make the well synthetic records of the selected single wells in each fault step, and establish the well synthetic records of the selected single wells in each fault step and their side channel seismic phase corresponding relationship.

[0027] 1.1. Based on the electrical density or acoustic data of the selected single wells in each fault step, use the seismic interpretation software to make well synthetic records of the selected single wells in each fault step.

[0028] According to the seismic data in the Qingzu area, two large faults developed in Qingzu, namely the Shijiaji fault and the Changyuan fault. These two fault...

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Abstract

The invention relates to a calibration method for improving the accuracy of seismic interpretation of fault-step structures, which belongs to the field of rolling development of oil and gas. In fault-step structures, selected single wells in each fault-step structure are selected for well synthesis records, and the location of the selected single well is determined. The time-depth relationship between the seismic time and depth in each fault step, using the time-depth relationship between the selected single well drilling in each fault step and the corresponding fault step seismic phase, establishes the relationship between the drilled formations and earthquakes of all wells in each fault step Correspondence relationship: For single wells that encounter different fault steps, the depth of the fault step boundary fault encountered by the single well is used as the boundary, and the time-depth relationship data of the corresponding sections are extracted according to the fault step positions of each section of the well body to splicing, and the drilling encounter is established. The seismic time-depth relationship of two or more fault-step single wells improves the accuracy of seismic interpretation of fault-step structures.

Description

technical field [0001] The invention relates to a calibration method for improving the accuracy of seismic interpretation of fault-step structures, which belongs to the field of oil and gas rolling development, and is applicable to the technical field of fine seismic interpretation of contiguous fault-step structures in old areas. Background technique [0002] The exploration and development of oilfields in central and eastern China has entered the middle and late stages, and the fine development of oilfields is imminent. Improving the calibration accuracy between the strata encountered by each well and the seismic phase in the target area is the key to improving the accuracy of seismic structure interpretation. At present, the commonly used calibration of well drilling and seismic phase depends on the seismic time-depth relationship. There are two methods to establish the seismic time-depth relationship. The first method is the time-depth relationship of points instead of pl...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01V1/36
CPCG01V1/36G01V2210/52
Inventor 张天增马艳艳熊运斌梁国胜冯坤茂任宏李春爱彭有聪
Owner CHINA PETROLEUM & CHEM CORP
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