1. Pore-scale observations of natural hydrate-bearing sediments via pressure core sub-coring and micro-CT scanning.
- Author
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Lei, Liang, Park, Taehyung, Jarvis, Karl, Pan, Lingli, Tepecik, Imgenur, Zhao, Yumeng, Ge, Zhuan, Choi, Jeong-Hoon, Gai, Xuerui, Galindo-Torres, Sergio Andres, Boswell, Ray, Dai, Sheng, and Seol, Yongkoo
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X-ray computed microtomography , *METHANE hydrates , *SEDIMENTS , *DRILL core analysis , *GAS hydrates - Abstract
Both intra-pore hydrate morphology and inter-pore hydrate distribution influence the physical properties of hydrate-bearing sediments, yet there has been no pore-scale observations of hydrate habit under pressure in preserved pressure core samples so far. We present for the first time a pore-scale micro-CT study of natural hydrate-bearing cores that were acquired from Green Canyon Block 955 in UT-GOM2-1 Expedition and preserved within hydrate pressure–temperature stability conditions throughout sub-sampling and imaging processes. Measured hydrate saturation in the sub-samples, taken from units expected to have in-situ saturation of 80% or more, ranges from 3 ± 1% to 56 ± 11% as interpreted from micro-CT images. Pore-scale observations of gas hydrate in the sub-samples suggest that hydrate in silty sediments at the Gulf of Mexico is pore-invasive rather than particle displacive, and hydrate particles in these natural water-saturated samples are pore-filling with no evidence of grain-coating. Hydrate can form a connected 3D network and provide mechanical support for the sediments even without cementation. The technical breakthrough to directly visualize particle-level hydrate pore habits in natural sediments reported here sheds light on future investigations of pressure- and temperature-sensitive processes including hydrate-bearing sediments, dissolved gases, and other biochemical processes in the deep-sea environment. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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