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Journal of Dispersion Science and Technology Volume 38, 2017 - Issue 12
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Original Articles

CO2/N2-switchable viscoelastic fluids based on a pseudogemini surfactant system

Jinyu WangCollege of Chemistry and Chemical Engineering, Southwest Petroleum University, Chengdu, P. R. China
,
Zhiyu HuangCollege of Chemistry and Chemical Engineering, Southwest Petroleum University, Chengdu, P. R. China;Engineering Research Center of Oilfield Chemistry, Ministry of Education, Chengdu, P. R. China;Oil & Gas Field Applied Chemistry Key Laboratory of Sichuan Province, Chengdu, P. R. ChinaCorrespondence[email protected] [email protected]
,
Cunchuan ZhengCollege of Chemistry and Chemical Engineering, Southwest Petroleum University, Chengdu, P. R. China
&
Hongsheng LuCollege of Chemistry and Chemical Engineering, Southwest Petroleum University, Chengdu, P. R. China;Engineering Research Center of Oilfield Chemistry, Ministry of Education, Chengdu, P. R. China;Oil & Gas Field Applied Chemistry Key Laboratory of Sichuan Province, Chengdu, P. R. ChinaCorrespondence[email protected] [email protected]
Pages 1705-1710 | Received 06 Dec 2016, Accepted 25 Dec 2016, Published online: 23 Mar 2017
 
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ABSTRACT

We prepared a CO2/N2-switchable pseudogemini surfactant system composed of sodium oleate (NaOA) and N, N, N’, N’-tetramethyl-1, 6-hexanediamine (TMHDA) at a mole ratio of 2:1. The two tertiary amine groups of the TMHDA can be protonated into quaternary ammonium salt when the system was bubbled with CO2, which can ‘‘bridge’’ two NaOA molecules via electrostatic attraction to form a pseudogemini surfactant. The formed pseudogemini surfactant can further self-assemble to wormlike micelles, causing a sharp increase in viscosity. The viscoelastic property and structure transitions of the pseudogemini surfactant system were investigated before and after bubbling of CO2. The pseudogemini surfactant system transformed from water-like to gel-like fluid with the bubbling of CO2, followed by white precipitate. The cryo-transmission electron microscope (cryo-TEM) characterization and rheological measurements exhibited that the sol–gel transition was attributed to a spherical-wormlike micelle transition. Moreover, this transition was switchable at least in three cycles. Finally, a reasonable mechanism of aggregate behavior transition was proposed from the viewpoint of the molecular states, micelle structures, and intermolecular interactions.

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