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A Design Method for Enhancing Seismic Wave Excited Illumination

A design method, excitation lighting technology, applied in seismic signal processing, etc., can solve the problem of not substantially improving the lighting energy of the target geological body, and achieve the effects of improving excitation efficiency, lighting energy, and imaging accuracy

Inactive Publication Date: 2017-05-10
SOUTHWEST PETROLEUM UNIV
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Problems solved by technology

However, the seismic directional lighting analysis only quantitatively calculates the illumination of the target geological body by seismic waves in various directions, so as to screen out the favorable direction for the target geological body illumination, but it does not substantially improve the illumination energy of the target geological body

Method used

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  • A Design Method for Enhancing Seismic Wave Excited Illumination
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  • A Design Method for Enhancing Seismic Wave Excited Illumination

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Embodiment Construction

[0045] Such as figure 1 As shown, a design method for enhancing seismic wave excitation lighting adopts the phase control theory and the principle of maximizing the theoretical signal-to-noise ratio of the combined seismic source as the design standard of the seismic source combination parameters, that is, the design standard of the group inner distance and the number of seismic sources. The improved optimization design standard belongs to a series of this method; it is not limited to horizontal surface conditions, and can be applied to areas with complex surface structures. The specific steps are as follows:

[0046] A. Based on the existing data, establish the forward geological model of the complex structure area, and determine the geological target; collect the geological data, seismic data, logging, and drilling data of the work area, integrate the known interpretation results and geological knowledge, and pass The modeling software establishes an accurate geological model o...

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Abstract

The invention mainly relates to a design method for enhancing seismic waves to stimulate illumination in a complex structure region. The design method comprises the following steps that (1) exploration area data are collected, a geological model of the complex structure region is established, and a geological target is determined; (2) an artificial seismic source is arranged at the target position, and illumination simulation is conducted through a wave equation forward modeling method; (3) statistics of illumination energy, upwards spread to the ground surface, of the seismic waves is conducted when illumination simulation is conducted; (4) an optimal encryption shot region on the ground surface is determined according to the statistical result of the illumination energy on the ground surface; (5) the main direction of emergence, on the ground surface, of the seismic waves stimulated by a target seismic source is calculated through a poynting vector, and the spread direction of a seismic wave beam stimulated by a phase-controlled seismic source is determined; (6) combined stimulation parameters of the phase-controlled seismic source are designed on the basis of a phase-controlled theory and the theoretical signal-to-noise ratio maximization principle of combined seismic sources; (7) a construction scheme for enhancing the illumination energy provided by the seismic waves for the target on the ground surface in the complex structure region is determined. The design method is good in application effect and can reduce the collection cost.

Description

Technical field [0001] The invention relates to a seismic exploration technology in the field of petroleum and natural gas exploration, and is applied to the design of an observation system for enhancing seismic wave excitation illumination in a complex structure area. Background technique [0002] With the continuous extension of oil and gas exploration and development to complex structural areas, the seismic and geological conditions faced by oil and gas exploration are becoming more and more complex, mainly manifested by severe surface fluctuations, large changes in surface velocity, complex underground geological structures, and deep exploration targets. The development of high-speed nappe has caused complex seismic wave fields and difficult imaging of geological targets. [0003] Conventional field seismic acquisition and observation system design based on horizontal layered media and horizontal surface assumptions can no longer meet the requirements of oil and gas exploration...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01V1/28
Inventor 尹成刘伟秦龙丁峰赵虎潘树林
Owner SOUTHWEST PETROLEUM UNIV
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