A new method to evaluate the effects of mechanical heterogeneity on fault architecture in sedimentary sequences

IF 4.2 3区工程技术 Q2 ENERGY & FUELS

Natural Gas Industry B Pub Date : 2023-06-01 DOI:10.1016/j.ngib.2023.03.001

Yicheng Mou , Wei Guo , Yangwen Pei

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Abstract

Geologists have long realized the important control of mechanical stratigraphy on fault nucleation, fault linkage and fault compartmentalization. However, uncertainties still exist concerning the mechanical heterogeneity of the stratigraphy because of difficulties in quantifying the mechanical stratigraphy. In this study, the average strength $S_{a v e}$ of a section is calculated considering the strength and thickness of each individual layer. The strength difference $S_{Δ}$ and normalized mechanical contrast $S_{Δ} / S_{a v e}$ are defined for each individual layer in a section. A diagram of the normalized mechanical contrast $S_{Δ} / S_{a v e}$ versus the normalized height $H / \sum_{i = 1}^{n} h_{i}$ can then be employed to effectively evaluate the vertical mechanical heterogeneity of the stratigraphy in a section. High-frequency fluctuations between negative and positive $S_{Δ} / S_{a v e}$ values represent high mechanical heterogeneity, and vice versa. The scaled mechanical heterogeneity ${M H}_{s c a l e d}$ can be used as an index to quantify the mechanical heterogeneity of the stratigraphy in sections with different scales. However, it is also important to realize that fault throw may promote or restrict the control of mechanical heterogeneity on faulting deformation. The mechanical heterogeneity may present limited control on the fault architecture, particularly when the fault throw is several times larger than the scale of the section. Increasing deformation rate may also minimise the control of the mechanical heterogeneity on the fault architecture.

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沉积层序中力学非均质性对断层构型影响的新方法

地质学家早就认识到机械地层学对断层成核、断层联系和断层划分的重要控制。然而，由于难以量化力学地层学，地层学的力学非均质性仍然存在不确定性。在本研究中，考虑到每一层的强度和厚度，计算截面的平均强度Save。强度差SΔ和标准化机械对比度SΔ/Save是为一个截面中的每个单独层定义的。标准化力学对比度SΔ/Save与标准化高度H/∑i=1nhi的关系图可用于有效评估剖面中地层的垂直力学非均质性。负和正SΔ/Save值之间的高频波动表示高的机械不均匀性，反之亦然。尺度力学非均质性MHscale可作为量化不同尺度剖面地层力学非均质性的指标。然而，同样重要的是要认识到，断层抛出可能促进或限制机械非均质性对断层变形的控制。机械异质性可能会对断层结构产生有限的控制，特别是当断层落差比断层规模大几倍时。增加变形率也可以最小化对断层结构上的机械不均匀性的控制。

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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