Heat-flow regimes and the hydrate stability zone of a transient, thermogenic, fault-controlled hydrate system (Woolsey Mound northern Gulf of Mexico)

Macelloni L.; Lutken C. B.; Garg S.; Simonetti A.; DEmidio M.; Wilson R. M.; Sleeper K.; Lapham L. L.; Lewis T.; Pizzi M.; Knapp J. H.; Knapp C. C.; Brooks J.; Mcgee T. M.

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Heat-flow regimes and the hydrate stability zone of a transient, thermogenic, fault-controlled hydrate system (Woolsey Mound northern Gulf of Mexico)

机译：瞬态，热源，断层控制的水合物系统的热流形式和水合物稳定区（墨西哥湾北部的伍尔西丘德）

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This study aims to constrain the base of the hydrates stability field in structurally complexsites using the case of Woolsey Mound, a fault-controlled, transient, thermogenic hydrates system, in Mississippi Canyon Block 118, northern Gulf of Mexico. We have computed the base of the hydrates stability field integrating results from a recent heat-flow survey, designed to investigate geothermal anomalies along fault zones which exhibit different fluid flux regimes. An advanced "compositional" simulator was used to model hydrate formation and dissociation at Woolsey Mound and addresses the following hypotheses:

机译：这项研究的目的是在墨西哥湾北部密西西比峡谷第118块的断层控制，瞬变热生水合物系统Woolsey Mound的情况下，在结构复杂的站点中限制水合物稳定性场的基础。我们已经计算了最近一次热流调查结果的水合物稳定性场的基础，该结果用于研究沿断层带表现出不同流体通量状态的地热异常。先进的“成分”模拟器用于模拟Woolsey土墩上水合物的形成和分解，并解决了以下假设：

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《Marine and Petroleum Geology》 |2015年第null期|共14页
作者
Macelloni L.; Lutken C. B.; Garg S.; Simonetti A.; DEmidio M.; Wilson R. M.; Sleeper K.; Lapham L. L.; Lewis T.; Pizzi M.; Knapp J. H.; Knapp C. C.; Brooks J.; Mcgee T. M.;
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正文语种 eng
中图分类海洋资源与开发;
关键词
Heat flow; Gas hydrate systems; Seafloor morphology; geology; and geophysics; Diapir and diapirism; Geochemical modeling;

机译：热流;天然气水合物系统;海底形态;地质;地球物理;底辟和底辟;地球化学模拟;

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1. Heat-flow regimes and the hydrate stability zone of a transient, thermogenic, fault-controlled hydrate system (Woolsey Mound northern Gulf of Mexico) [J] . Macelloni L., Lutken C. B., Garg S., Marine and Petroleum Geology . 2015,第Null期

机译：瞬态，热源，断层控制的水合物系统的热流形式和水合物稳定区（墨西哥湾北部的伍尔西丘德）
2. Spatial distribution of seafloor bio-geological and geochemical processes as proxies of fluid flux regime and evolution of a carbonate/hydrates mound, northern Gulf of Mexico [J] . Leonardo Macelloni, Charlotte A. Brunner, Simona Caruso, Deep-Sea Research . 2013,第Apra期

机译：墨西哥湾北部海底生物地质和地球化学过程的空间分布，作为流体通量状态的代理和碳酸盐/水合物土墩的演化
3. High-resolution seismic-reflection investigation of the northern gulf of mexico gas-hydrate-stability zone [J] . Alan K.Cooper, Patrick E.Hart Marine and Petroleum Geology . 2003,第10期

机译：墨西哥天然气水合物稳定带北部海湾的高分辨率地震反射研究
4. Progress toward a sea-floor observatory at a carbonate/hydrate mound in the northern Gulf of Mexico [C] . T. McGee, J. R. Woolsey, L. Macelloni, IEEE/OES US/EU-Baltic International Symposium . 2008

机译：墨西哥湾北部碳酸盐/水合物土墩的海底天文台进展
5. Amplitude vs. Offset Effects on Gas Hydrates at Woolsey Mound, Gulf of Mexico. [D] . Anderson, Walter R., Jr. 2013

机译：墨西哥湾Woolsey土墩对天然气水合物的振幅与偏移影响。
6. Lipid Biomarkers and Carbon Isotope Signatures of a Microbial (Beggiatoa) Mat Associated with Gas Hydrates in the Gulf of Mexico [O] . Chuanlun L. Zhang, Zhiyong Huang, James Cantu, 2005

机译：墨西哥湾与天然气水合物相关的微生物（Beggiatoa）垫的脂质生物标志物和碳同位素特征
7. Fracture-controlled gas hydrate systems in the northern Gulf of Mexico [O] . Cook Ann E., Goldberg David S., Kleinberg Robert L. 2008

机译：墨西哥湾北部裂缝控制的天然气水合物系统

Heat-flow regimes and the hydrate stability zone of a transient, thermogenic, fault-controlled hydrate system (Woolsey Mound northern Gulf of Mexico)

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