气候变化领域集成服务门户(CCPortal): Mechanical control on patterns of overburden deformation induced by dyke-fed sandstone intrusions: Insights from numerical experiments

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DOI	10.1016/j.tecto.2020.228351
	Mechanical control on patterns of overburden deformation induced by dyke-fed sandstone intrusions: Insights from numerical experiments
	Meng Q.; Hodgetts D.
发表日期	2020
ISSN	00401951
卷号	777
英文摘要	Conical sandstone intrusions, as a distinct type of hydrocarbon reservoir, remain poorly understood regarding their emplacement mechanics. Here, we report a numerical modelling study of conical sandstone intrusions using the two-dimensional discrete element method. We built numerical models that contain bonded elastic particles with predefined mechanical properties in an open box as the overburden. A thin tube filled with unbonded particles, and connected to the upper box, was used to model the feeder dyke. The dynamic behavior of the assembly was enabled by the displacement of a driving wall that defines the lower boundary of the feeder dyke. The results show that the model composed of soft materials produced a pair of conical, opening-mode fractures in the host sediments as the result of tensile stress concentrations in the fracture tip zones. The overburden deformation was largely localised within the sediments adjacent to the sandbody, and without the formation of a forced fold and significant uplift of the surface. In contrast, the model composed of stiffer materials produced conical fractures that have closed lower segments and opening upper segments with a reverse sense of shear. The intrusion also caused a forced fold in the overburden, with a vertical opening-mode fracture generated in the fold hinge. The modelling results demonstrate that dyke-fed sand intrusions can significantly distort the local stress field and the overburden can be subjected to fracturing and/or folding due to differential compaction during gradual inflation of the intrusive sandbody. Importantly, deformation patterns of the overburden in response to sandstone intrusion largely depend on mechanical properties of the host sediments. © 2020
关键词	Conical Differential compaction Forced fold Fracture Sandstone intrusion
英文关键词	Compaction; Deformation; Fracture; Mechanical properties; Numerical methods; Numerical models; Sandstone; Conical; Deformation pattern; Differential compaction; Forced fold; Hydrocarbon reservoir; Numerical experiments; Opening mode fracture; Sandstone intrusions; Sediments; compaction; deformation; discrete element method; fold; fracture zone; igneous intrusion; induced response; numerical method; overburden; sandstone; tensile stress
语种	英语
来源期刊	Tectonophysics
文献类型	期刊论文
条目标识符	http://gcip.llas.ac.cn/handle/2XKMVOVA/207829
作者单位	Department of Earth and Environmental Sciences, University of Manchester, Manchester, M13 9PL, United Kingdom
推荐引用方式 GB/T 7714	Meng Q.,Hodgetts D.. Mechanical control on patterns of overburden deformation induced by dyke-fed sandstone intrusions: Insights from numerical experiments[J],2020,777.
APA	Meng Q.,&Hodgetts D..(2020).Mechanical control on patterns of overburden deformation induced by dyke-fed sandstone intrusions: Insights from numerical experiments.Tectonophysics,777.
MLA	Meng Q.,et al."Mechanical control on patterns of overburden deformation induced by dyke-fed sandstone intrusions: Insights from numerical experiments".Tectonophysics 777(2020).