A borehole trajectory inversion scheme to adjust the measurement geometry for 3D travel-time tomography on glaciers

IF 3.2 2区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS Solid Earth Pub Date : 2023-07-28 DOI:10.5194/se-14-805-2023
S. Hellmann, M. Grab, C. Patzer, A. Bauder, H. Maurer
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Abstract

Abstract. Cross-borehole seismic tomography is a powerful tool to investigate the subsurface with a very high spatial resolution. In a set of boreholes, comprehensive three-dimensional investigations at different depths can be conducted to analyse velocity anisotropy effects due to local changes within the medium. Especially in glaciological applications, the drilling of boreholes with hot water is cost-efficient and provides rapid access to the internal structure of the ice. In turn, movements of the subsurface such as the continuous flow of ice masses cause deformations of the boreholes and complicate a precise determination of the source and receiver positions along the borehole trajectories. Here, we present a three-dimensional inversion scheme that considers the deviations of the boreholes as additional model parameters next to the common velocity inversion parameters. Instead of introducing individual parameters for each source and receiver position, we describe the borehole trajectory with two orthogonal polynomials and only invert for the polynomial coefficients. This significantly reduces the number of additional model parameters and leads to much more stable inversion results. In addition, we also discuss whether the inversion of the borehole parameters can be separated from the velocity inversion, which would enhance the flexibility of our inversion scheme. In that case, updates of the borehole trajectories are only performed if this further reduces the overall error in the data sets. We apply this sequential inversion scheme to a synthetic data set and a field data set from a temperate Alpine glacier. With the sequential inversion, the number of artefacts in the velocity model decreases compared to a velocity inversion without borehole adjustments. In combination with a rough approximation of the borehole trajectories, for example, from additional a priori information, heterogeneities in the velocity model can be imaged similarly to an inversion with fully correct borehole coordinates. Furthermore, we discuss the advantages and limitations of our approach in the context of an inherent seismic anisotropy of the medium and extend our algorithm to consider an elliptic velocity anisotropy. With this extended version of the algorithm, we analyse the interference between a seismic anisotropy in the medium and the borehole coordinate adjustment. Our analysis indicates that the borehole inversion interferes with seismic velocity anisotropy. The inversion can compensate for such a velocity anisotropy. Based on the modelling results, we propose considering polynomials up to degree 3. For such a borehole trajectory inversion, third-order polynomials are a good compromise between a good representation of the true borehole trajectories and minimising compensation for velocity anisotropy.
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一种调整冰川三维走时层析成像测量几何形状的钻孔轨迹反演方案
摘要井间地震层析成像是一种具有很高空间分辨率的探测地下的有力工具。在一组钻孔中,可以在不同深度进行全面的三维调查,以分析由于介质内部局部变化而导致的速度各向异性效应。特别是在冰川学应用中,用热水钻孔是经济有效的,并且可以快速进入冰的内部结构。反过来,地下的运动,如冰块的连续流动,导致钻孔变形,并使沿钻孔轨迹精确确定源和接收器位置复杂化。在这里,我们提出了一种三维反演方案,该方案将钻孔的偏差作为普通速度反演参数旁边的附加模型参数。我们没有为每个源和接收器位置引入单独的参数,而是用两个正交多项式来描述井眼轨迹,只对多项式系数进行反演。这大大减少了额外模型参数的数量,并导致更稳定的反演结果。此外,我们还讨论了井眼参数的反演是否可以与速度反演分离,这将增强反演方案的灵活性。在这种情况下,只有在进一步减少数据集中的总体误差的情况下,才能进行井眼轨迹的更新。我们将这种序列反演方案应用于一个合成数据集和一个温带高山冰川的野外数据集。与不进行井眼调整的速度反演相比,采用顺序反演的速度模型中的伪影数量减少。结合井眼轨迹的粗略近似,例如,通过额外的先验信息,可以像完全正确的井眼坐标反演一样对速度模型中的非均质性进行成像。此外,我们讨论了在介质固有地震各向异性的背景下我们的方法的优点和局限性,并扩展了我们的算法来考虑椭圆速度的各向异性。利用该算法的扩展版本,我们分析了介质中地震各向异性与井眼坐标调整之间的干扰。分析表明,钻孔反演干扰了地震速度的各向异性。反演可以补偿这种速度各向异性。基于建模结果,我们建议考虑3次多项式。对于这种井眼轨迹反演,三阶多项式是一种很好的折衷方法,既能很好地表示真实井眼轨迹,又能最大限度地减少速度各向异性的补偿。
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来源期刊
Solid Earth
Solid Earth GEOCHEMISTRY & GEOPHYSICS-
CiteScore
6.90
自引率
8.80%
发文量
78
审稿时长
4.5 months
期刊介绍: Solid Earth (SE) is a not-for-profit journal that publishes multidisciplinary research on the composition, structure, dynamics of the Earth from the surface to the deep interior at all spatial and temporal scales. The journal invites contributions encompassing observational, experimental, and theoretical investigations in the form of short communications, research articles, method articles, review articles, and discussion and commentaries on all aspects of the solid Earth (for details see manuscript types). Being interdisciplinary in scope, SE covers the following disciplines: geochemistry, mineralogy, petrology, volcanology; geodesy and gravity; geodynamics: numerical and analogue modeling of geoprocesses; geoelectrics and electromagnetics; geomagnetism; geomorphology, morphotectonics, and paleoseismology; rock physics; seismics and seismology; critical zone science (Earth''s permeable near-surface layer); stratigraphy, sedimentology, and palaeontology; rock deformation, structural geology, and tectonics.
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