Tools for pressure core sub-coring and pore-scale micro-CT (computed tomography) scans

IF 1.6 Q3 GEOSCIENCES, MULTIDISCIPLINARY

Scientific Drilling Pub Date : 2021-04-26 DOI:10.5194/SD-29-59-2021

Y. Seol, L. Lei, K. Jarvis, D. Hill, Jeong-Hoon Choi, T. Park, X. Gai, Greg Wunderlich, Bill Grey, Chris McArdle

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引用次数: 2

Abstract

Abstract. The pore habits of gas hydrate in natural sediment matrices provide essential clues for understanding physical (mechanical, thermal, hydraulic, and electrical) properties of hydrate-bearing sediments, yet there are no tools that can directly visualize the pore habits of natural gas hydrate other than indirect interpretation based on core-scale or field-scale observations. A significant challenge is to obtain a mini-core from pressure cores retrieved from natural reservoirs for high-resolution micro-CT (computed tomography) scans while maintaining pressure and temperature conditions required for stability of gas hydrate during all operational steps including manipulation, cutting, transferring, sub-coring and CT scanning. We present a new set of tools for pore-scale micro-CT imaging of natural hydrate-bearing sediments while maintaining pressure and temperature control. The tests with laboratory-prepared cores and pressure cores successfully demonstrate the capability of this set of tools to subsample a mini-core from pressure cores, transfer the mini-core to an X-ray transparent core holder, and conduct micro-CT scans. Successfully obtained CT images prove the functionality of this set of tools.

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用于压力岩心分段取心和孔隙尺度微型ct(计算机断层扫描)扫描的工具

摘要天然沉积基质中天然气水合物的孔隙习性为理解含水合物沉积物的物理(力学、热、水力和电)特性提供了重要线索，但除了基于岩心尺度或现场尺度观测的间接解释外，没有工具可以直接可视化天然气水合物的孔隙习性。一项重大挑战是，在操作、切割、转移、次取心和CT扫描等所有操作步骤中，如何从天然储层提取的压力岩心中获得氨基岩心，进行高分辨率微CT扫描，同时保持天然气水合物稳定性所需的压力和温度条件。我们提出了一套新的工具，用于在保持压力和温度控制的情况下对天然含水合物沉积物进行孔隙尺度的微ct成像。实验室制备的岩心和压力岩心的测试成功地证明了这套工具的能力，可以从压力岩心中提取微型岩心，将微型岩心转移到x射线透明岩心支架上，并进行微型ct扫描。成功获得的CT图像证明了这套工具的功能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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