Experiment for effect of water-soluble ions on formation of methane hydrate in oil-water emulsion

In the process of deep-sea oil and gas production, the low-temperature high-pressure condition in the pipeline is naturally helpful for formation of hydrates, which may result in the blockage of pipelines, bringing a major safety hazard to the pipeline transportation of oil and gas. Thus, a kinetic...

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Bibliographic Details
Main Author: Chao SUN
Format: Article in Journal/Newspaper
Language:Chinese
Published: Editorial Office of Oil & Gas Storage and Transportation 2021
Subjects:
methane hydrate
emulsion
crystal
kinetics
surfactant
Oils
fats
and waxes
TP670-699
Gas industry
TP751-762
Methane hydrate
Online Access:https://doi.org/10.6047/j.issn.1000-8241.2021.07.010
https://doaj.org/article/846a92a0fc0c4e3bbcd707af720b16c0
Description
Summary:In the process of deep-sea oil and gas production, the low-temperature high-pressure condition in the pipeline is naturally helpful for formation of hydrates, which may result in the blockage of pipelines, bringing a major safety hazard to the pipeline transportation of oil and gas. Thus, a kinetic experiment on hydrate formation was conducted in the multiphase flow environment formed by the main components in seawater during oil and gas production, and the variation of the individual or combined effect of different components on the gas pressure parameters and gas storage during the hydration reaction was observed during the experiment. In the experiment, stable white oil emulsion was prepared with Span80 and SDS as the dispersing agents, the emulsion at different mass fraction was mixed with the artificial seawater crystals separately, and the effect of hydrolytic ions on the hydrate formed in the emulsion system was analyzed. The results show that the artificial seawater crystal can promote the heat and mass transfer between the molecules of the emulsion system, shorten the induction time of hydrate formation, accelerate the hydration reaction rate, and significantly increase the hydrate formation. The research provides a reference for prevention and control of hydrate blockage in pipelines during oil and gas production.

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