The Geological Characteristics of a Subpermafrost Gas Hydrate Reservoir on the Taimyr Shelf of the Kara Sea (Eastern Arctic)

IF 1 4区 地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS
T. V. Matveeva, A. O. Chazov, Yu. Yu. Smirnov
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Abstract

The conditions for the formation of gas hydrates associated with subsea permafrost in the Kara Sea have been predicted based on numerical modeling. The forecast of the distribution of the relic submarine permafrost and related methane hydrate stability zone is given on the basis of solving the equation of thermal conductivity. According to modeling data, an extensive thermobaric relic submarine permafrost zone is predicted within the Kara Sea shelf. The greatest thickness (up to 600 m) of the permafrost is confined to the Taimyr shelf. Based on the results of the analysis of our model, drilling and seismic data, the southwestern shelf of the Kara Sea has insular or sporadic permafrost. In the northeastern part, the nature of the permafrost is also discontinuous, despite the greater thickness of the frozen strata. For the first time, accumulations of cryogenic gas hydrates on the Taimyr shelf have been characterized. The latest drilling data, seismic data reinterpretation, and numerical modeling have shown that the gas hydrate reservoir is confined to unconformably occurring Silurian–Devonian and underlying Triassic–Jurassic strata. The thickness of the gas hydrate reservoir varies from 800 to 1100 m. Based on the interpretation of CDP data and their comparison with model calculations, frozen deposits, and sub-permafrost traps of stratigraphic, anticline and anticline-stratigraphic types were identified for the first time. These pioneering studies allowed us to characterize the thickness and morphology of the gas hydrate reservoir, give a preliminary seismostratigraphic reference, and identify potentially gas hydrate-bearing structures. Due to the favorable thermobaric and permafrost-geothermal conditions, most of the identified traps may turn out to be sub-permafrost accumulations of gas hydrates. In total, at least five potential accumulations of gas hydrates were discovered, confined to structural depressions; the Uedineniya Trough and its side included the Egiazarov Step and North Mikhailovskaya Depression.

Abstract Image

喀拉海泰梅尔大陆架(东北极)次冻土层天然气水合物储层的地质特征
摘要 根据数值模型预测了与喀拉海海底永久冻土相关的天然气水合物的形成条件。在求解导热方程的基础上,对海底永久冻土遗迹和相关甲烷水合物稳定区的分布进行了预测。根据建模数据,预测在喀拉海大陆架内有一个广泛的热压遗迹海底永久冻土带。厚度最大(达 600 米)的永久冻土仅限于泰梅尔大陆架。根据我们对模型、钻探和地震数据的分析结果,喀拉海西南大陆架为孤立或零星的永久冻土层。在东北部,尽管冰冻地层的厚度更大,但永久冻土的性质也是不连续的。泰梅尔大陆架上的低温天然气水合物储量首次得到了描述。最新的钻探数据、地震数据重新解释和数值建模表明,天然气水合物储层仅限于志留纪-德文纪和下伏三叠纪-侏罗纪地层中的不整合地层。根据对 CDP 数据的解释及其与模型计算的比较,首次确定了地层、反线和反线-地层类型的冻结沉积和次冻土陷阱。这些开创性的研究使我们能够确定天然气水合物储层的厚度和形态特征,提供初步的地震地层参考,并确定潜在的含天然气水合物结构。由于有利的热压和永久冻土地热条件,大部分已确定的陷阱可能会成为冻土层下的天然气水合物聚集地。总共发现了至少五个潜在的天然气水合物积聚区,这些积聚区仅限于结构性凹陷;Uedineniya 地槽及其一侧包括 Egiazarov 台阶和北 Mikhailovskaya 凹陷。
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来源期刊
Geotectonics
Geotectonics 地学-地球化学与地球物理
CiteScore
1.90
自引率
9.10%
发文量
28
审稿时长
3 months
期刊介绍: Geotectonics publishes articles on general and regional tectonics, structural geology, geodynamics, and experimental tectonics and considers the relation of tectonics to the deep structure of the earth, magmatism, metamorphism, and mineral resources.
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