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Laboratory Investigation Into the Formation and Dissociation Process of Gas Hydrate by Low‐Field NMR Technique
Author(s) -
Ge Xinmin,
Liu Jianyu,
Fan Yiren,
Xing Donghui,
Deng Shaogui,
Cai Jianchao
Publication year - 2018
Publication title -
journal of geophysical research: solid earth
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.983
H-Index - 232
eISSN - 2169-9356
pISSN - 2169-9313
DOI - 10.1029/2017jb014705
Subject(s) - hydrate , clathrate hydrate , dissociation (chemistry) , chemistry , porosity , saturation (graph theory) , chemical physics , dissociation rate , analytical chemistry (journal) , chromatography , organic chemistry , mathematics , combinatorics
We monitored the gas hydrate through low‐field nuclear magnetic resonance measurement. An observed decrease of the relaxation time ( T 2 ) intensity corresponds to the formation process, whereas an increase of the intensity corresponds to the dissociation process. The right domain of the spectrum with T 2 larger than 10 ms disappears gradually with the formation time, whereas the left domain with T 2 smaller than 1 ms remains invariant, indicating the gas hydrate forms preferentially in larger pores. In addition, the right domain increases rapidly with the dissociation time, revealing that the gas hydrate preferentially decomposes in large pores. The spectrum distributions move toward the fast relaxation domain with the growth of gas hydrate, because the generated gas hydrate occupies the large pore and accelerate the relaxation rate. There is no obvious relationship between the gas hydrate saturation and the porosity, whereas the volume and preliminary dissociation ratio are strongly correlated with the porosity.