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A Stochastic Inversion Method with Frequency Division Iterative Constraints

A stochastic inversion and iterative technology, applied in the field of stochastic inversion constrained by frequency-division iterations, can solve problems such as high prior information requirements, difficulty in effectively reflecting thin layers, and insufficient resolution of results, so as to reduce the degree of dependence, The effect of improving the inversion accuracy and improving the prediction accuracy

Active Publication Date: 2022-04-15
CHINA NAT OFFSHORE OIL CORP +1
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Problems solved by technology

At present, the oil and gas fields discovered in China are mainly continental reservoirs, and the continental depositional environment makes the development of reservoirs complex and diverse, which brings great challenges to reservoir prediction and reservoir description.
Seismic attributes, 90-degree phase shift, and constrained sparse pulse inversion are effective and important technical means in traditional seismic reservoir prediction methods, which play an important role in the early exploration stage of oil and gas fields. Accuracy Requirements for Fine Exploration and Development
[0003] Seismic inversion techniques commonly used in reservoir prediction can be divided into two categories: deterministic inversion and stochastic inversion. Among them, constrained sparse pulse inversion belongs to the deterministic inversion method, and the inversion result is the best wave impedance volume. However, this method is based on the assumption of sparsity, and it is difficult to effectively reflect thin layers; while the geostatistical inversion method belongs to the category of stochastic inversion, and the inversion result is the average result of a series of equal probability realizations. Combining simulation and seismic inversion technology, it is an inversion method that makes full use of geological, seismic and logging information to obtain high-resolution inversion results. Information requirements are high. In areas where the number of participating wells is insufficient, the distribution of well patterns is uneven, and the quality of seismic data is poor, such as during the exploration and development of offshore oil and gas fields, the number of wells and the distribution range of well patterns are limited, and it is difficult for random inversion methods to fully utilize their potential. Advantage
At present, there is no relatively mature and perfect inversion technology in the industry for fine prediction and description of reservoirs under the conditions of insufficient prior information such as a small number of drilling wells or insufficient fineness of the grid model.

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  • A Stochastic Inversion Method with Frequency Division Iterative Constraints
  • A Stochastic Inversion Method with Frequency Division Iterative Constraints
  • A Stochastic Inversion Method with Frequency Division Iterative Constraints

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[0070] According to the development characteristics of continental complex reservoirs and actual petrophysical data, a wave impedance model including reservoir lateral thickness variation and reservoir superimposition is designed, in which the reservoir is sandstone, the non-reservoir is mudstone, and the wave impedance of mudstone Greater than the acoustic impedance of sandstone. Figure 4 Shown is the cross-well section diagram of the time-domain wave impedance model. The reservoir is shown in white in the figure. Well1 is a well drilled with complete logging curve, good well condition and drilling through the target interval. The wave impedance of this well can Effectively distinguish between reservoirs and non-reservoirs.

[0071] Combined with the existing seismic data, well well 1 was calibrated by means of acoustic wave integration, and fine-tuned on this basis to obtain the final fine time-depth relationship. The light gray on the well trajectory indicates the reservoi...

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Abstract

The present invention provides a random inversion method with frequency-division iteration constraints, including: optimizing the drilled wells required for inversion; fine well-seismic calibration; expanding the frequency band of existing seismic data; performing frequency-division processing on broadband seismic data after frequency expansion; Frequency wavelet extraction; obtain 3D apparent sand-to-ground ratio distribution body; seismic data-driven inversion method; improve the accuracy of seismic data-driven random inversion results, and use the obtained 3D apparent sand-to-ground ratio distribution body as prior information Added to the stochastic inversion process driven by high-frequency seismic data to obtain high-precision random inversion results with frequency-division iterative constraints; The true superimposed connectivity relationship provides an important reference for the pre-drilling well location deployment in the exploration target evaluation stage and the well location optimization in the oilfield comprehensive adjustment stage.

Description

technical field [0001] The invention relates to the technical field of interpretation of oil and gas exploration seismic data, in particular to a random inversion method constrained by frequency division iterations. Background technique [0002] As an important part of the seismic data interpretation process, reservoir prediction provides an important reference for oil and gas field exploration well location deployment and development well pattern design. Reservoir prediction is a technical means to predict the development of underground reservoirs based on the original seismic data, using seismic attribute method or seismic inversion technology, and using various attribute information or inversion wave impedance results. At present, the oil and gas fields discovered in China are mainly continental reservoirs, and the continental depositional environment makes the development of reservoirs complex and diverse, which brings great challenges to reservoir prediction and reservo...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01V1/28G01V1/30G01V1/36
CPCG01V1/282G01V1/306G01V1/364G01V2210/6226
Inventor 段新意张志军郭军谭辉煌李尧张生强徐德奎郑江峰李英刘恭利姜本厚孙佳林
Owner CHINA NAT OFFSHORE OIL CORP
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