2020
DOI: 10.3390/en13071570
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One-Dimensional Study on Hydrate Formation from Migrating Dissolved Gas in Sandy Sediments

Abstract: Upward migration of gas-dissolved pore fluid is an important mechanism for many naturally occurring hydrate reservoirs. However, there is limited understanding in this scenario of hydrate formation in sediments. In this preliminary work, hydrate formation and accumulation from dissolved gas in sandy sediments along the migration direction of brine was investigated using a visual hydrate simulator. Visual observation was employed to capture the morphology of hydrates in pores through three sapphire tubes. Meanw… Show more

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Cited by 3 publications
(3 citation statements)
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References 33 publications
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“…In addition, Tian et al 134 compared the numerically fitted and experimentally measured n values to determine the hydrate morphology. Li et al 135 synthesized hydrates by dissolved gas in a 1D visual hydrate simulator. Their measured resistivity (S h < 50%) matches the patchy line (Figure 10) and is consistent with the observed hydrate accumulation in the 1D visual hydrate simulator.…”
Section: Electrical Resistivity Of Ghbsmentioning
confidence: 99%
“…In addition, Tian et al 134 compared the numerically fitted and experimentally measured n values to determine the hydrate morphology. Li et al 135 synthesized hydrates by dissolved gas in a 1D visual hydrate simulator. Their measured resistivity (S h < 50%) matches the patchy line (Figure 10) and is consistent with the observed hydrate accumulation in the 1D visual hydrate simulator.…”
Section: Electrical Resistivity Of Ghbsmentioning
confidence: 99%
“…6,7 Notably, the dissolved methane content in seawater can directly influence the microbial absorption process 8 while also affecting the nucleation and growth characteristics of methane conversion to hydrates. 9 In comparison to other reactions, the methane hydrate con- version process on the deep seabed is both more rapid and more pronounced. Moreover, the formation of methane hydrates can, in turn, alter the dissolution rate and saturation concentration of methane seeping from the seabed, thereby significantly influencing the microbial methane oxidation process.…”
Section: Introductionmentioning
confidence: 99%
“…Methane released from seafloor seepage undergoes a series of complex transformation reactions during its migration through the seabed sediment layer and the marine water column, including methane dissolution, microbial oxidation, chemical conversion, and the formation of solid-phase hydratesplaying a crucial role in effectively intercepting the substantial emissions of methane from the seafloor into the atmosphere. , Notably, the dissolved methane content in seawater can directly influence the microbial absorption process while also affecting the nucleation and growth characteristics of methane conversion to hydrates . In comparison to other reactions, the methane hydrate conversion process on the deep seabed is both more rapid and more pronounced.…”
Section: Introductionmentioning
confidence: 99%