Abstract
The linear polarization resistance method is used to improve the technique of corrosion control in liquid conducting according to GOST 9.514–99 (General Corrosion and Aging Protection System. Corrosion Inhibitors for Metals in Water Systems. Electrochemical Method of Determining the Protective Ability). Corrosion monitoring is shown to be performed by electronic devices with real-time data transfer to industrial controllers and SCADA systems.
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References
“Corrosion rate monitoring by the linear polarization resistance method,” in Advanter Corrosion Monitoring. http://advanter-rf.com/lprintro.htm.
N. G. Anufriev, Z. G. Skobel’skaya, and A. Sh. Chavchanidze, “Determination of the corrosion properties of metals in food industry media using an Ekspert-K device,” Praktika Protivokor. Zashch., No. 1, 50–53 (2003).
N. D. Voitekh, Yu. A. Zhuravlev, and D. A. Batulin, “Effect of the fluid velocity on the corrosion rate in carbonic acid,” Neftegazokhimiya, No. 1, 45–56 (2013).
N. G. Anufriev, “New possibilities of the linear polarization resistance method in corrosion studies and practice,” Korroziya: Materialy, Zashchita, No. 1, 36–43 (2012).
N. G. Anufriev, “Opportuinities and experience of application of modern polarizing resistance method for corrosion monitoring in heat supply systems,” Praktika Protivokor. Zashch., No. 1 (75), 40–44 (2015).
S. V. Brezitskii, A. G. Gumerov, A. P. Medvedev, A. T. Faritov, Yu. G. Rozhdestvenskii, L. P. Khudyakova, and M. D. Getmanskii, “Retrospective analysis of the composition and corrosiveness of the Samotlor deposit media,” Neft. Khoz., No. 6, 96–100 (2003).
A. S. Tyusenkov, D. V. Kononov, D. E. Bugai, and A. B. Laptev, “Change in the corrosion activity of water during the transportation of a water–oil mixture along a lined pipeline,” Neftegazovoe Delo, No. 5, 89–95 (2011).
V. I. Sorokin and A. V. Boriskin, “Systems for controlling the corrosiveness of a technological medium,” Zavod. Lab., No. 5, 7–10 (1997).
I. S. Sivokon’, “Estimation of the accuracy of measuring the corrosion rate by various methods during laboratory and oil-field tests of corrosion inhibitors,” Praktika Protivokor. Zashch., No. 2 (72) 7 (2014).
F. Mansfeld, Achievements of the Science of Corrosion and Corrosion Protection (Metallurgiya, Moscow, 1980).
V. I. Sorokin, A. V. Boriskin, G. P. Stepanets, et al., “Effect of the polarization current and time on the polarization resistance of grade 20 steel in main water, which is measured on a computer-assisted stand,” Zashch. Met. 31 (6), 658–660 (1995).
Monicor-3-GSM-LPR Corrosion Rate Indicator with Information Tank and a Compensator of the Ohmic Resistance of a Solution. Certificate and Operating Instruction. http://www.monicor.ru/ru/doc.
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Original Russian Text © A.T. Faritov, Yu.G. Rozhdestvenskii, S.A. Yamshchikova, E.R. Minnikhanova, A.S. Tyusenkov, 2016, published in Metally, 2016, No. 6, pp. 36–43.
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Faritov, A.T., Rozhdestvenskii, Y.G., Yamshchikova, S.A. et al. Improvement of the linear polarization resistance method for testing steel corrosion inhibitors. Russ. Metall. 2016, 1035–1041 (2016). https://doi.org/10.1134/S0036029516110070
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DOI: https://doi.org/10.1134/S0036029516110070