研究消泡剂对原油/空气界面的影响:提出一种新方法

M. Mendes, J. B. Ramalho, O. K. Júnior, L. Palermo, C. Mansur
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引用次数: 0

摘要

石油生产过程中产生的泡沫是一个复杂的系统。它们连续相的复杂性使得很难理解泡沫层中发生了什么。一些研究表明,稳定泡沫的主要物质是沥青质,因为沥青质通过其界面活性降低了气泡的表面张力,使其表面变得粘弹性。为了理解表面粘弹性,有必要研究原油/空气界面的流变学。由于绝大多数已发表的作品仅使用Du Nouy环或BiCone附件来评估模型沥青质系统的表面,因此本工作的目的是使用BiCone附件研究不同原油样品和不同消泡产品的原油/空气界面。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
STUDYING THE INFLUENCE OF ANTIFOAMING ADDITIVES ON CRUDE OIL/AIR INTERFACE: PROPOSAL OF A NEW METHODOLOGY
Foams generated during oil production are complex systems. The complexity of their continuous phase makes it difficult to understand what occurs in the foam layers. Some studies have shown that the main species that stabilize foams are asphaltenes, because they reduce the surface tension of the bubbles with their interfacial activity, causing this surface to become viscoelastic. To understand surface viscoelasticity, it is necessary to investigate the rheology of the crude oil/air interface. Since the great majority of works published have used a Du Nouy ring or BiCone accessory to evaluate the surface only of model asphaltene systems, the aim of this work is to study the crude oil/air interface of different crude oil samples and different antifoaming products using the BiCone accessory.
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