A water droplet size distribution dependent modeling of hydrate formation in water/oil emulsion

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• 作者：Yi-Ning Lv ; Chang-Yu Sun ; Bei Liu ; Guang-Jin Chen and Jing Gong
• 刊名：AIChE Journal
• 出版年：2017
• 出版时间：March 2017
• 年：2017
• 卷：63
• 期：3
• 页码：1010-1023
• 全文大小：883K
• ISSN：1547-5905

文摘

Experimental data on chord length distributions and growth rate during methane hydrate formation in water-in-oil emulsions were obtained in a high pressure stirring reactor using focused beam reflectance measurement and particle video microscope. The experiments were carried out at 274.2 K for 10–30% water cuts and agitation rates ranging from 200 to 500 rpm initially at 7.72 MPa. Rapid growth was accompanied by gradually decrease in rate. Free water was observed to become depleted during rapid growth while some water remained encapsulated inside hydrate layers constituting a mass transfer barrier. The apparent kinetic constants of methane hydrate formation and free-water fractions were determined using a newly developed kinetic model independent of the dissolution rate at the gas–oil interface. It was illustrated that continued growth depends on distribution and transfer of water in oil-dominated systems. This perception accords with observations of hydrate film growth on suspended water droplet in oil and clarifies transfer limits in kinetics.