Natural Gas Industry B (Jun 2023)
A new method to evaluate the effects of mechanical heterogeneity on fault architecture in sedimentary sequences
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 Save of a section is calculated considering the strength and thickness of each individual layer. The strength difference SΔ and normalized mechanical contrast SΔ/Save are defined for each individual layer in a section. A diagram of the normalized mechanical contrast SΔ/Save versus the normalized height H/∑i=1nhi can then be employed to effectively evaluate the vertical mechanical heterogeneity of the stratigraphy in a section. High-frequency fluctuations between negative and positive SΔ/Save values represent high mechanical heterogeneity, and vice versa. The scaled mechanical heterogeneity MHscaled 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.
