泡沫辅助-水交替气产生的剩余表面活性剂-泡沫处理实例研究

N. Borhan, Shazleen Saadon, Almila Hassan
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引用次数: 0

摘要

在柱温为30 ~ 60℃、施加压力为1 ~ 4bar、流体流速为0.5 L/min的条件下,对含泡沫表面活性剂泡沫辅助-水交替气(FAWAG)包的模拟采出水体系中2种原油和4种合成Gemini有机硅胺基消泡剂的起泡进行了一系列综合实验研究。在本研究中,原油中存在45 ~ 75.8%的高饱和成分,影响了流体的泡沫稳定性。这反映了致密性较高的蜡质原油在0.8768 ~ 0.858 Kg/L之间,泡沫表面活性剂在采出水体系中的浓度从30%增加到90%会影响泡沫稳定性。微观观察表明,气泡尺寸越大,平均约为400 ~ 500µm,会减缓液体的排水速度,导致泡沫的稳定性。分析了胺短链、胺长链、胺支链和酰胺链等不同结构的消泡剂,确定了5 ~ 40ppm不同浓度下分子结构对消泡剂的影响。消泡能力由泡沫高度和崩塌时间决定。酰胺短链和胺支链具有优异的破泡性能,由于在片层之间形成不稳定的桥,导致泡沫破裂,平均气泡尺寸减小到50 - 100µm,使液体更快地排出,从而提高了抑制性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Case Study of Managing Surplus Surfactant-Foam Generated from Foam Assisted-Water Alternating Gas
A comprehensive series of experiments on foaming of two (2) types of crude oil and four (4) types of synthesized Gemini silicone- amine base defoamer in simulated produced water system containing foam surfactant Foam Assisted-Water Alternating Gas (FAWAG) package were investigated under the influence of column temperature at 30 – 60 °C, applied pressure of 1 – 4 bar, and fixed fluid flowrate of 0.5 L/min. In this study, the presence of high saturates composition in the crude oil which at 45 – 75.8 % influence the foam stability of the fluids. This reflects the waxy types of crude oils with higher density properties of 0.8768 – 0.858 Kg/L and increase concentration of foam surfactant from 30% to 90% in the produced water system influences the foaming stability. The microscopic observation shows that bigger bubble size about the average of 400 – 500 µm would slows down the liquid drainage, resulting in foam stability behavior. Defoamers with various structures ranged from amine short-chain, amine long-chain, amine branched-chain and amide-chain were analysed to determine the effect of molecular structure at various concentration from 5 – 40ppm. The defoaming ability was determined by foam height and collapse time. The amide short-chain and amine branched –chain had excellent foam breaking performance which was observed from the mean bubble size reduction to 50 – 100 µm resulting from formation of unstable bridge across lamellae causing the foam to rupture, allowing faster liquid drainage, thus improving suppression performance.
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