The research on gas hydrates can be divided into two subfields: risk prevention and control of pipeline blockage by hydrates and industrial applications of solidified natural gas (SNG) in gas storage and transportation, seawater desalination, and gas recovery. The two opposing properties of hydrates have stimulated research into promoting and inhibiting methods. A considerable number of studies have reported that the same type of additive can play a promoting or inhibiting effect at different concentrations. This study evaluated the kinetic effects of low concentrations of ethylene glycol (EG) and sodium chloride (NaCl) on methane hydrate production in sodium dodecyl sulfate (SDS) solution. The results showed that both NaCl and EG had kinetic inhibitory effects on the hydrate reaction in SDS solution, and the inhibitory effects gradually increased with the increase of the concentration. Among them, the inhibitory effect of NaCl was stronger than that of EG at the same content. 5 wt % NaCl can reduce the reaction rate of hydrate in SDS solution by 81%, but 0.1 wt % NaCl helped SDS to act on hydrate growth, and the rate of hydrate growth stage was increased by 100%. When 0.1 wt % NaCl or 5 wt % EG existed in the SDS solution, the hydrate mainly grew in the bulk solution and on the inner wall surface of the container, forming a peak-like structure below the interface, and 5 wt % EG also formed a ridge-like structure above the interface. Exploring the macroscopic formation characteristics of hydrate is helpful to industrial process optimization and predicting the additive concentration in the pipeline. This work emphasizes that the selection of substances can be broadened and the rational use of resources can be achieved as much as possible when selecting promoters that are conducive to hydrate formation kinetics or inhibitors that control hydrate growth.
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