Understanding of Corrosion Inhibitor Dispersion Process in Water through Interaction between Stearic Acid and Alkane

IF 1.1 4区材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY Corrosion Pub Date : 2024-04-02 DOI:10.5006/4534

Susumu Hirano, Tatsuya Sei, Midori Kawasaki, Atsushi Kobayashi, Tomokazu Yasuike

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Abstract

Oil-soluble and water-dispersible corrosion inhibitors are used to mitigate corrosion in pipelines. The performance of corrosion inhibitors has been described mainly in terms of the adsorption of surfactants on metal surfaces. However, the partition of the surfactant from oil to water and its dispersion in water should also significantly affect the corrosion inhibition mechanism of pipelines operating in metal-oil-water systems. Based on this perspective, we investigate the influence of oil on the dispersion process of surfactants. To this end, we measured the inhibition performance, surface tension, and dispersion into the aqueous phase for a simple model inhibitor consisting of stearic acid (surfactant) and alkanes (oil). The results indicate that the mixing of oil with surfactant increases the amount of dispersion in water by decreasing the interfacial tension, thereby improving the corrosion inhibition performance. This strongly suggests that the dispersion of surfactant in the aqueous phase is essentially important in the corrosion inhibition process in metal-oil-water systems as a preliminary step to the formation of hydrophobic film on the metal surface.

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通过硬脂酸与烷烃的相互作用了解缓蚀剂在水中的分散过程

油溶性和水分散性缓蚀剂用于减轻管道腐蚀。人们主要从表面活性剂在金属表面的吸附作用来描述缓蚀剂的性能。然而，表面活性剂从油到水的分配及其在水中的分散也会对在金属-油-水系统中运行的管道的缓蚀机制产生重大影响。基于这一观点，我们研究了油对表面活性剂分散过程的影响。为此，我们测量了由硬脂酸（表面活性剂）和烷烃（油）组成的简单模型抑制剂的抑制性能、表面张力以及在水相中的分散情况。结果表明，油与表面活性剂混合后，通过降低界面张力增加了在水中的分散量，从而提高了缓蚀性能。这有力地表明，表面活性剂在水相中的分散在金属-油-水体系的缓蚀过程中至关重要，是在金属表面形成疏水膜的第一步。

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来源期刊

Corrosion MATERIALS SCIENCE, MULTIDISCIPLINARY-METALLURGY & METALLURGICAL ENGINEERING

CiteScore

2.80

自引率

12.50%

发文量

审稿时长

3 months

期刊介绍： CORROSION is the premier research journal featuring peer-reviewed technical articles from the world’s top researchers and provides a permanent record of progress in the science and technology of corrosion prevention and control. The scope of the journal includes the latest developments in areas of corrosion metallurgy, mechanisms, predictors, cracking (sulfide stress, stress corrosion, hydrogen-induced), passivation, and CO2 corrosion. 70+ years and over 7,100 peer-reviewed articles with advances in corrosion science and engineering have been published in CORROSION. The journal publishes seven article types – original articles, invited critical reviews, technical notes, corrosion communications fast-tracked for rapid publication, special research topic issues, research letters of yearly annual conference student poster sessions, and scientific investigations of field corrosion processes. CORROSION, the Journal of Science and Engineering, serves as an important communication platform for academics, researchers, technical libraries, and universities. Articles considered for CORROSION should have significant permanent value and should accomplish at least one of the following objectives: • Contribute awareness of corrosion phenomena, • Advance understanding of fundamental process, and/or • Further the knowledge of techniques and practices used to reduce corrosion.