Facies-based Bayesian simultaneous inversion technology and its application: A case study of the north section of No.5 fault zone in Shunbei area, Tarim Basin, China

Fei Cao , Zhiqiang Lu , Weifang Liu
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引用次数: 1

Abstract

The fault-karst carbonate reservoir in the Shunbei area of the Tarim Basin is controlled by deep strike-slip faults and forms a fault-karst system. The reservoir space primarily includes holes and fractures, and its strong anisotropism aggravates the complexity of the reservoir seismic response characteristics. High-quality reservoirs in the fault-karst body in this area have different burial depths, which is not conducive to the establishment of low-frequency models in traditional inversion. Facies-based Bayesian simultaneous inversion technology combines Bayesian classification with pre-stack simultaneous inversion, divides different facies based on multi-elastic parameters such as P-wave and S-wave velocity and density, and conducts an in-depth trend analysis for each phase to establish the initial model. Compared with traditional inversion technology, this technology not only improves the inversion accuracy but also increases the stability of the density inversion. Taking the carbonate fault-karst body in the northern section of the No.5 fault zone in the Shunbei area as the research object, combined with the actual production situation, two facies, fractured-cavity limestone, and tight limestone, were divided by elastic parameters and then subjected to depth trend analysis and inversion. Through the single fracture-cavity equivalent model test and practical application analysis, the density data obtained by the Facies based Bayesian simultaneous inversion were highly consistent with the reservoirs drilled by Wells W3 and W3C in the northern section of the No.5 fault zone, which verifies the applicability and reliability of the inversion technique in the study area and the reliability of the results.

基于相的贝叶斯同时反演技术及其应用——以塔里木盆地顺北地区5号断裂带北段为例
塔里木盆地顺北地区断裂岩溶碳酸盐岩储层受深部走滑断裂控制,形成断裂岩溶系统。储层空间主要包括孔洞和裂缝,其强烈的各向异性加剧了储层地震响应特征的复杂性。该区断裂岩溶体内的优质储层埋藏深度不同,不利于传统反演中低频模型的建立。基于相的贝叶斯同时反演技术将贝叶斯分类与叠前同时反演相结合,根据P波、S波速度和密度等多弹性参数划分不同相,并对每个相进行深入的趋势分析,建立初始模型。与传统反演技术相比,该技术不仅提高了反演精度,而且提高了密度反演的稳定性。以顺北地区5号断裂带北段碳酸盐岩断裂岩溶体为研究对象,结合实际生产情况,通过弹性参数划分缝洞灰岩和致密灰岩两个相,并进行深度趋势分析和反演。通过单缝洞等效模型试验和实际应用分析,基于相的贝叶斯同时反演得到的密度数据与5号断裂带北段W3井和W3C井钻探的储层高度一致,验证了反演技术在研究区的适用性和可靠性以及结果的可靠性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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