Synthesis and characterization of nano-SiO<sub>2</sub>@octadecylbisimidazoline quaternary ammonium salt used as acidizing corrosion inhibitor-Reference-Cited by-同舟云学术

Synthesis and characterization of nano-SiO₂@octadecylbisimidazoline quaternary ammonium salt used as acidizing corrosion inhibitor

Published:2022-01-01 Issue:1 Volume:61 Page:186-194
ISSN:1605-8127
Container-title:REVIEWS ON ADVANCED MATERIALS SCIENCE
language:en
Short-container-title:

Author:

Liu Yunfeng¹^ORCID,Chen Lili²,Tang Yongfan¹,Zhang Xingde¹,Qiu Zhengsong³

Affiliation:

1. Research Institute of Natural Gas Technology, Southwest Oil and Gas Field Company of PetroChina , Chengdu 610213 , China

2. Southwest Oil and Gas Field Company of PetroChina , Chengdu 610213 , China

3. School of Petroleum Engineering, China University of Petroleum (East China) , Qingdao 266580 , China

Abstract

Abstract Aiming at the current situation that the existing acidizing corrosion inhibitors are difficult to apply in high temperature, high concentration acid, and other complex conditions, this article uses nano-SiO2 as the core and preferably functional monomers to synthesize nano-SiO2@octadecylbisimidazoline quaternary ammonium salt (nano-SiO2@OBQA). Analytical methods such as nuclear magnetic resonance, infrared, and scanning electron microscopy were used for characterization. The corrosion inhibition performance of the N80 steel sheet by nano-SiO2@OBQA in 20% concentrated hydrochloric acid was studied using the high-temperature corrosion testing machine and adsorption isotherm model combined with quantum chemistry calculations to explore its mechanism of action. The results show that nano-SiO2@OBQA has good high-temperature resistance. When the temperature is 180℃ and the dosage of nano-SiO2@OBQA is 4%, the corrosion inhibition rate is 61.42 g·m−2·h−1. Studies have shown that the adsorption of nano-SiO2@OBQA on the surface of the N80 steel sheet follows the Langmuir isotherm adsorption model, which is spontaneous chemical adsorption.

Publisher

Walter de Gruyter GmbH

Subject

Condensed Matter Physics,General Materials Science

Link

https://www.degruyter.com/document/doi/10.1515/rams-2022-0006/pdf

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