Bayesian linearized amplitude variation with offset and azimuth inversion and uncertainty analysis in horizontal transversely isotropic media

IF 1.8 3区 地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS Geophysical Prospecting Pub Date : 2024-06-03 DOI:10.1111/1365-2478.13548
Xinpeng Pan, Zhishun Liu, Pu Wang, Lei Huang, Jianxin Liu
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Abstract

The stratum can be modelled as a horizontal transversely isotropic medium when a single set of vertically parallel fractures embedded in an isotropic background medium, which facilitates efficient study for fractured reservoirs. Elastic parameters and fracture weaknesses are important parameters to describe the characteristics of fractured reservoirs, and seismic inversion plays a significant role in parameters estimation. The commonly used deterministic inversion methods do not fully utilize the prior information and fails to present the uncertainty analysis of inversion results. To address these shortcomings, we propose a Bayesian linearized amplitude variation with offset and azimuth inversion method tailored for horizontal transversely isotropic media, enabling a more robust analysis of uncertainty. Within the framework of Bayesian inversion, the proposed method successfully derives analytical expressions for the posterior mean and covariance of both elastic parameters and fracture weaknesses. The response characteristics of the anisotropic reflection coefficient are analysed, and it is found that the perturbations of elastic parameters have a greater effect on reflection coefficient compared to fracture weaknesses. Synthetic data examples confirm that the accuracy of estimated P- and S-wave velocities and density surpasses that of fracture weaknesses, and the proposed method still performs well for the case of moderate noise. A field data example demonstrates that the inverted profiles agree well with the logging curve, and the estimated fracture weaknesses display significantly high values in the reservoir area. The estimated reservoir parameters not only contribute to a more accurate representation of the fractured gas-bearing reservoir but also provide insights into the target gas reservoir through its posterior distribution. Both synthetic and field data examples demonstrate the stability and reliability of the proposed method in characterizing fractured reservoirs. We determine that the proposed method provides an available tool for nuanced evaluation of uncertainty for the inversion results, and it is helpful for the fine description of fractured hydrocarbon-bearing reservoirs.

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水平横向各向同性介质中带有偏移和方位角的贝叶斯线性化振幅变化反演及不确定性分析
当单组垂直平行裂缝嵌入各向同性背景介质时,地层可被模拟为水平横向各向同性介质,这有助于对裂缝储层进行有效研究。弹性参数和裂缝软弱性是描述裂缝储层特征的重要参数,地震反演在参数估计中发挥着重要作用。常用的确定性反演方法不能充分利用先验信息,也无法对反演结果进行不确定性分析。针对这些不足,我们提出了一种针对水平横向各向同性介质的贝叶斯线性化振幅变化偏移和方位角反演方法,从而能够对不确定性进行更稳健的分析。在贝叶斯反演框架内,所提出的方法成功地推导出了弹性参数和断裂软弱性的后验均值和协方差的分析表达式。分析了各向异性反射系数的响应特征,发现与断裂软弱性相比,弹性参数的扰动对反射系数的影响更大。合成数据实例证实,P 波和 S 波速度和密度的估算精度超过了裂缝软弱性的估算精度,而且所提出的方法在中等噪声情况下仍然表现良好。一个现场数据实例表明,反演剖面与测井曲线非常吻合,估算出的裂缝薄弱度在储层区域显示出明显的高值。估算出的储层参数不仅有助于更准确地表示压裂含气储层,还能通过其后向分布深入了解目标气藏。合成数据和现场数据实例都证明了所提方法在描述裂缝储层特征方面的稳定性和可靠性。我们认为,所提出的方法为反演结果不确定性的细微评估提供了可用工具,有助于对裂缝含烃储层进行精细描述。
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来源期刊
Geophysical Prospecting
Geophysical Prospecting 地学-地球化学与地球物理
CiteScore
4.90
自引率
11.50%
发文量
118
审稿时长
4.5 months
期刊介绍: Geophysical Prospecting publishes the best in primary research on the science of geophysics as it applies to the exploration, evaluation and extraction of earth resources. Drawing heavily on contributions from researchers in the oil and mineral exploration industries, the journal has a very practical slant. Although the journal provides a valuable forum for communication among workers in these fields, it is also ideally suited to researchers in academic geophysics.
期刊最新文献
Issue Information Simultaneous inversion of four physical parameters of hydrate reservoir for high accuracy porosity estimation A mollifier approach to seismic data representation Analytic solutions for effective elastic moduli of isotropic solids containing oblate spheroid pores with critical porosity An efficient pseudoelastic pure P-mode wave equation and the implementation of the free surface boundary condition
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