PART 2. SAFETY OF STORAGE OF SULFURIC ACID
( Pp. 62-79)

More about authors
Rakhimov Rustam Kh. Dr. Sci. (Eng.); Head at the Laboratory No. 1
Institute of Materials Science of the SPA “Physics-Sun” of the Academy of Sciences of the Republic of Uzbekistan
Tashkent, Republic of Uzbekistan Rakhimov Murod Rustamovich mladshiy nauchnyy sotrudnik laboratorii № 1
Institute of materials science «Physics-sun» of Uzbekistan Academy of sciences, Uzbekistan Latipov Rustam Naimzhanovich inzhener laboratorii № 1
Institute of Materials Science, “Physics-sun”, Uzbekistan Academy of sciences Yermakov Vladimir P. senior research at the Laboratory No. 1
Institute of Materials Science of the SPA «Physics-Sun» of the Academy of Science of Uzbekistan
Tashkent, Republic of Uzbekistan
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Abstract:
The article presents the results of research on the safety of storing sulphuric acid in iron vessels. It is shown that the cause of corrosion is the presence in the acid copper and copper compounds. The proposed device for emitting light and acoustic signal at the beginning of corrosion.
How to Cite:
Rakhimov R.K., Rakhimov M.R., Latipov R.N., Yermakov V.P., (2017), PART 2. SAFETY OF STORAGE OF SULFURIC ACID. Computational Nanotechnology, 2: 62-79.
Reference list:
R. KH. Rakhimov, T. T. Riskiev, V. P. Ermakov, R. N. Latipov, Vozmozhnost primeneniya funktsional noy keramiki dlya sinteza kompleksnykh soedineniy , Computational nanotechnology, 2016, № 2, s. 129-131.
R. KH. Rakhimov, Osobennosti sinteza funktsional noy keramiki s kompleksom zadannykh svoystv radiatsionnym metodom. CHast 1 , Computational nanotechnology, 2016, № 2, s. 9-27.
Rakhimov R.KH. Sintez funktsional noy keramiki na BSP i razrabotki na ee osnove. Computational nanotechnology, №3, 2015, s. 1-24.
Rakhimov R. KH., Rashidov KH. K., Ermakov V. P., Rakhimov M.R., Rashidov ZH. KH. Obespechenie bezopasnosti khraneniya sernoy kisloty. Computational nanotechnology №3, 2016, s. 183-196.
Rakhimov R.KH., Ermakov V.P. Vozmozhnosti primeneniya keramicheskikh materialov v energo- i resursosberezhenii. Computational nanotechnology, №1,2016, s. 1-6.
Rakhimov R.KH., Ermakov V.P., Rakhimov M.R. Primenenie funktsional noy keramiki v kompleksoobrazovanii. KHimicheskaya tekhnologiya №1, 2015.
7. Sayt ZAO ZMI zaozmi.ru
http://tutmet.ru/pittingovaja-korrozija-nerzhavejushhih-stalej-foto.html
Material sayta Britanskoy Assotsiatsii Nerzhaveyushchey Stali www.bssa.org.uk
Kukushkin YU.N. KHimiya koordinatsionnykh soedineniy. M.: Vysshaya shkola, 1985.
Grinberg A.A. VVEDENIE v khimiyu kompleksnykh soedineniy. M.; L.: KHimiya,1966.
Verner A. Novye vozzreniya v oblasti neorganicheskoy khimii. L.: ONTI, 1936.
Kotton F., Uilkinson Dzh. Sovremennaya neorganicheskaya khimiya. M.: Mir, 1969.
Kratkaya khimicheskaya entsiklopediya pod redaktsiey I.A. Knuyants i dr. - M.: Sovetskaya entsiklopediya, 1961-
Andreev I.N. Korroziya metallov i ikh zashchita. - Kazan : Tatarskoe knizhnoe izdatel stvo, 1979.
Voytovich V.A., Mokeeva L.N. Biologicheskaya korroziya. - M.: Znanie, 1980, № 10.
Luk yanov P.M. Kratkaya istoriya khimicheskoy promyshlennosti. - M.: Izdatel stvo AN SSSR, 1959.
Tedder Dzh., Nekhvatal A., Dzhubb A. Promyshlennaya organicheskaya khimiya. - M.: Mir, 1977.
Ulig G.G., Revi R.U. Korroziya i bor ba s ney. - L.: KHimiya, 1989
Nikiforov V.M. Tekhnologiya metallov i konstruktsionnye materialy. - M.: Vysshaya shkola, 1980.
http://www.nazdor.ru/topics/improvement/preparations/current /469554/
http://studopedia.ru/13 91006 osnovnie-harakteristiki-effektivnosti-deystviya-ingibitorov.html
Keywords:
acid, corrosion, complex compounds, iron, the comparator, the electrode.