Error message

  • Deprecated function: Unparenthesized `a ? b : c ? d : e` is deprecated. Use either `(a ? b : c) ? d : e` or `a ? b : (c ? d : e)` in include_once() (line 1439 of /home/science2016/public_html/includes/
  • Deprecated function: Array and string offset access syntax with curly braces is deprecated in include_once() (line 3557 of /home/science2016/public_html/includes/

Coke Quenching Plenum Equipment Corrosion and Its Dependents on the Quality of the Biochemically Treated Water of the Coke-Chemical Production

Leonid Bannikov1, Denis Miroshnichenko1,2, Oleksii Pylypenko1,3, Serhiy Pyshyev4, Oleh Fedevych4, Valeriy Meshchanin1
1Ukrainian State Research Institute for Carbochemistry, 7, Vesnina St., 61023, Kharkiv, Ukraine; 2National Technical University “Kharkiv Polytechnic Institute” 2, Kyrpychova St., 61002 Kharkiv, Ukraine; 3 O.M. Beketov National University of Urban Economy in Kharkiv 17, Marshal Bazhanov St., Kharkiv, 61002, Ukraine; 4 Lviv Polytechnic National University, 12, S.Bandery St., 79013 Lviv, Ukraine;
PDF icon full_text.pdf467.06 KB
Steel corrosion processes that occur due to the effects of the biochemically treated water in coke quenching plenums have been studied. Model investigations into the processes of the corrosion failure of carbon St. 3 steel and alloyed 18Х1MF steel were carried out to study the behavior of the metal exposed to the action of the primary but treated water used for the coke quenching after the metal is heated to 373 K and 773 K. Different types of the corrosion that results from the contact of the carbon steel and alloy steel with the sodium hydroxide biochemically treated water of the coke-chemical production have been described. It was shown that the corrosion failure of the steels results from the formation of the films of hydrated iron oxides that appear in all the test media and these films show different behavior of adhesion to specimen surfaces. It was proved that the water treatment results in a certain decrease of the values of the mass and in-depth corrosion factors for St.3 and 12X1MF steels, however it fails to produce an essential effect when the steel is in constant touch with hot water.

[1] Loison, R.; Foch, P.; Boyer, A. Coke. Quality and Production; Butterworth-Heinemann, 1989.

[2] Skljar, M. Intensifikatsiya Koksovaniya i Kachestvo Koksa; Metallurgiya, 1976 (In Russian).

[3] Saranchuk, V.; Іl'jashov, M.; Oshovs'kij, V.; Bіlec'kij, V. Osnovy Khіmіi і Fіzyky Goryuchykh Kopalyn; Shіdnyi vidavnychyi dіm, 2008 (In Ukrainian).

[4] Zhang, Z.; Song, S.; Huang, J.; Ji, L.; Wu F. Investigation of Corrosion Caused by Constituents of Refinery Wastewater Effluent Used as Circulating Cooling Water. Water Environ. Res. 2003, 75, 61-65.

[5] Tanaka, N.; Sato, S.; Watanabe, I.; Yamada, Y.; Sakurada, O. Corrosion in Tap Water and Hot Water Supply Facilities of Stainless Steel Type 304 Pipes. Mat. Sci. Appl. 2018, 9, 68-80.

[6] Sang, X.; Wang, Z.; Li, J.; Wang, H.; Su, F.; Liu, Z.; Zhang, L.; Zhu Z. Corrosion Protection of Carbon Steel in Circulating Cooling Water by Open-chain Carboxyethyltin and Transition Metal Co-functionalized Tungstogermanates. ChemistrySelect 2010, 4, 7358-7362.

[7] Topilnytsky, P.; Romanchuk, V.; Yarmola, T. Production of Corrosion Inhibitors for Oil Refining Equipment Using Natural Components. Chem. Chem. Technol. 2018, 12, 400-404.

[8] Shmandiy, V.; Bezdeneznych, L.; Kharlamova, O.; Svjatenko, A.; Malovanyy, M.; Petrushka, K.; Polyuzhyn, I. Methods of Salt Content Stabilization in Circulating Water Supply Systems. Chem. Chem. Technol. 2017, 11, 242-246.

[9] Yang, B., He, J., Zhang, G., Guo, L. Vanadium: Extraction, Manufacturing and Applications; Elsevier, 2020.

[10] Bondar, O.; Vorobyova, V.; Kurmakova, I.; Chygyrynets, O. Aminooxoethylpyridinium Chlorides as Inhibitors of Mild Steel Acid Corrosion. Chem. Chem. Technol. 2018, 12, 127-133.

[11] Standard Test Methods for Ammonia Nitrogen in Water, 2021. (accessed 2021-12-22).

[12] Standard Test Methods for Phenolic Compounds in Water, 2020. (accessed 2020-01-17).

[13] Standard Test Method for Sulfate Ion in Water, 2017. (accessed 2020-02-03).

[14] Standard Test Method for Sulfide Ion in Water, 2017. (accessed 2020-02-08).

[15] Standard Test Methods for Calcium and Magnesium in Water, 2021. (accessed 2021-12-06).

[16] Standard Test Method for Hardness in Water, 2017. (accessed 2017-12-15).

[17] Standard Test Method for Thiocyanate in Water, 2010. (accessed 2010-12-31).

[18] Standard Test Methods for Cyanides in Water, 2018. (accessed 2010-02-09).

[19] Standard Test Methods for Chlorides in Water, 2021. (accessed 2020-10-19).

[20] Standard Test Methods for Nitrite-Nitrate in Water, 2021. (accessed 2010-12-23).

[21] Standard Test Methods for Iron in Water, 2016. (accessed 2016-12-27).

[22] Standard Test Methods for Filterable Matter (Total Dissolved Solids) and Nonfilterable Matter (Total Suspended Solids) in Water, 2018. (accessed 2018-05-31).

[23] Deyab, M. A.; Guibal, E. Enhancement of Corrosion Resistance of the Cooling Systems in Desalination Plants by Green Inhibitor. Sci. Rep. 2020, 10, 4812.

[24] Jin, J.; Wu, G.; He, K; Chen, J.; Xu, G.; Guan, Y. Effect of Ions on Carbon Steel Corrosion in Cooling Systems With Reclaimed Wastewater as the Alternative Makeup Water. Desalination Water Treat. 2013, 52, 7565-7574.

[25] Pilipenko, A.; Pancheva, H.; Reznichenko, G.; Myrgorod, O.; Miroshnichenko, N.; Sincheskul, A. The Study of Inhibiting Structural Material Corrosion in Water Recycling Systems by Sodium Hydroxide. EasternEuropean J. Enterp. Technol. 2017, 2, 21-28.

[26] Pancheva, H.; Reznichenko, G.; Miroshnichenko, N.; Sincheskul, A.; Pilipenko, A.; Loboichenko, V. Study Into the Influence of Concentration of Ions of Chlorine and Temperature of Circulating Water on the Corrosion Stability of Carbon Steel and Cast Iron. EasternEuropean J. Enterp. Technol. 2017, 4, 59-64.

[27] Smyrnov, O. O.; Shepil, T. E.; Kozin, V. Yu.; Bezhenko, A. O.; Rutkovska, K. S.; Pylypenko, O. I. Corrosion Resistance of Structural Materials in Tungstate Solutions. Mater. Sci. 2020, 55, 664-671.

[28] Ahmed, S. A.; Makki H. F. Books of Abstracts, 2nd International Conference on Materials Engineering & Science (IConMEAS 2019), Baghdad, Iraq, September 25-29, 2019; Dahham, O. S.; Zulkepli, N. N. Ed.: AIP Publishing, 2020.

[29] Shin, S.-B.; Song, S.-J.; Shin, Y.-W.; Kim, J.-G.; Park, B.-J.; Suh, Y.-C. Effect of Molybdenum on the Corrosion of Low Alloy Steels in Synthetic Seawater. Mater. Trans. 2016, 57, 2116-2121. https://doi:10.2320/matertrans.M2016222