固体颗粒和表面活性剂在原油乳化转化中的应用

Brazilian Journal of Petroleum and Gas Pub Date : 2019-04-03 DOI:10.5419/BJPG2019-0004

A. Mendes, V. S. Santos, R. Santana

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引用次数: 2

摘要

以油包水(W/O)乳化液形式开采的原油粘度较高，给管道输送带来困难。通过添加含有固体颗粒和表面活性剂的水相来生产油水乳状液是降低油粘度的一种替代方法。因此，本研究的目的是研究表面活性剂(Triton X-100)和固体颗粒(钠基膨润土)的协同作用对乳液转化的影响。乳剂的电导率、流变性、动力学稳定性和液滴大小分析都被表征。根据电导率和流变学分析，当水溶液在30 - 40% (m/m)之间时，W/O转变为O/W乳液。水含量从30%增加到50% (w/w)，平均液滴尺寸从2.6µm增加到10.6µm，相分离从9.5µm增加到68.0µm (v/v)，乳液粘度从183µa.s降低到1.07µa.s。含有固体颗粒和表面活性剂的水溶液会影响乳状液的性能，使其粘度低于原油，从而使抽油和管道输送更加容易。

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EMULSION INVERSION OF CRUDE OIL BY SOLID PARTICLE AND SURFACTANT ADDITION

Crude oil produced as water-in-oil (W/O) emulsion can show high viscosity, causing difficulties during pipeline transportation. The production of O/W emulsion by adding an aqueous phase containing solid particles and surfactant is an alternative to decrease oil viscosity. Thus, the objective of this work is to study the synergistic effect of a surfactant (Triton X-100) and a solid particle (sodium bentonite) addition on emulsion inversion. Emulsions were characterized in conductivity, rheology, kinetic stability, and droplet size analyses. W/O to O/W emulsions inversion occurred when aqueous solutions were between 30 and 40% (m/m), according to conductivity and rheology analyses. The increment of water content from 30 to 50 % (w/w) increased mean droplet size from 2.6 to 10.6 µm, increased phase separation from 9.5 to 68.0 (v/v), and decreased emulsion viscosity from 183 to 1.07 mPa.s. Aqueous solution containing solid particle and surfactant affected emulsions’ properties, producing systems with lower viscosity than crude oil, making it easier for oil pumping and pipeline transportation.

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Brazilian Journal of Petroleum and Gas

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