ArticleName |
Improvement of the testing procedure of dump slag from Vaniukov’s furnaces at the Copper plant of M&MC “Norilsk nickel” |
ArticleAuthorData |
“Gipronickel” Institute LLC, Saint Petersburg, Russia:
А. N. Glazatov, Leading Researcher, e-mail: angla@nikel.spb.su L. Sh. Tsemekhman, Head of Laboratory М. V. Lukashova, Researcher of a Laboratory of Pyrometallurgy
Polar Division of “Norilsk Nickel” Mining and Metallurgical Complex, Norilsk, Russia:
S. Yu. Eroshevich, Deputy Director on Technical Policy and Industrial Ecology V. I. Lazarev, Head of an Engineering Department |
Abstract |
Currently at the Copper Plant of Arctic Division of M&MC Norilsk Nickel a part of non-ferrous and precious metals are irretrievably lost with Vanikov’s furnaces slag send to the dump. Up to lately for the purpose of such losses control a very labourintensive method of dual slag testing was used at the operation: several samples of melted slag were taken when it was discharged from the mixer into pans and sampling was also done from hardened slag with the help of a metallic scoop. The obtained slag samples could not be considered representative and testing results were not reliable as the method was not legitimate due to its unconformity with normative documents: GOST 14180–80 and OST 48-276–86, as these documents do not admit using of testing parameters without experimentally established coefficients of components variation, also “dipper” design was imperfect due to its massive and slowly cooled surface.The principal task of the work was to develop a low cost, convenient and reliable procedure for testing melted dump product in accordance with the requirements of normative documents. For this purpose special investigations were carried out, where the uniformity of slag melts from one of the furnaces in terms of non-ferrous metals, precious metals, Fe and S content was studied with the testing product volume per a shift not less than 80%. The coefficients of components content variations were defined. There were determined scientifically proved parameters for testing melted dump slag from a Vanukov's furnace with one sample being taken from each pan. A new “dipper” was designed and introduces with the use metallic blades of a “brush” type, having large selecting surface and high cooling rate. The process of slag samples preparation for the analysis was improved considering the formation of beads of non-ferrous metals sulfides in the melt. Dual testing of slag melt with the use of a “dipper– bush” and metallurgical spoon and data processing by dispersive analysis helped to determine values of errors and allowable deviations in components testing, and they were used as metrological characteristics of control. The testing procedure was attested in accordance with the Russian Federation Law in force. |
References |
1. Dudkin V. I., Valyukhov V. P., Olkhovoy V. A., Lazarev V. I. O distantsionnom kontrole sostava shlaka plavilnogo agregata. Promyshlennye pechi i vysokotemperaturnye reaktory : sbornik dokladov seminara (About the distant control of a slade composition of a melting unit. Industrial furnaces and high-temperature reactors : reports of a seminar). Saint Petersburg : “Ruda i Metally” Publ., 2006. pp. 27–30. 2. Sturm V., Schmitz H.-U., Reuter T., Fleige R., Noll R. Fast vacuum slag analysis in a steel works by laser-induced breakdown spectroscopy. Spectrochimica Acta. Part B : Atomic Spectroscopy. 2008. Vol. 63, Iss. 10. pp. 1167–1170. 3. Makiishi N., Sato S., Nagashima H. On-site Rapid Analysis of Steelmaking Slag Using Fluorescent X-ray, Analysis. JFE Giho. 2006. Vol. 13. pp. 48–53. 4. GOST 14180–80. Rudy i kontsentraty tsvetnykh metallov. Metody otbora i podgotovki prob dlya khimicheskogo analiza i opredeleniya vlagi (State Standard 14180–80. Ores and concentrates of nonferrous metals. Methods of selection and preparation of samples for chemical analysis and moisture definition). Introduced 01. 07. 1980. 5. OST 48-276–86. Rudy i kontsentraty tsvetnykh metallov s poputnym soderzhaniem blagorodnykh metallov. Otbor i podgotovka prob dlya opredeleniya soderzhaniya blagorodnykh metallov i vlagi (Branch Standard 48-276–86. Ores and concentrates of nonferrous metals with the following content of noble metals. Selection and preparation of samples for definition of content of noble metals and moisture). Introduced 01.07.1987. 6. GOST 28192–89. Otkhody tsvetnykh metallov i splavov. Metody otbora, podgotovki prob i metody ispytaniy (State Standard 28192–89. Wastes of non-ferrous metals and alloys. Methods of selection, preparation of samples and testing methods). Introduced 01.01.1991. 7. Atlas mineralnogo syrya, tekhnologicheskikh promyshlennykh produktov i tovarnoy produktsii Zapolyarnogo Filiala Otkrytogo Aktsionernogo Obshchestva “Gorno-Metallurgicheskiy Kompleks “Norilskiy Nikel” (Atlas of mineral raw materials, technological industrial products and commercial output of Polar Division of “Norilsk Nickel” Mining and Metallurgical Complex). Under the general editorship of L. Sh. Tsemekhman, V. B. Fomichev, N. G. Kaytmazov. Moscow : “Ruda i Metally” Publ., 2010. 332 p. 8. Glazatov A. N., Tsemekhman L. Sh., Tsymbulov L. B., Spitsyn N. K., Kovalishin Yu. S., Salamova R. V. Tsvetnaya metallurgiya — Russian Journal of Non-Ferrous Metals. 2010. No. 2. pp. 19–24. 9. Tsymbulov L. B. Sovershenstvovanie sushchestvuyushchikh i razrabotka novykh pirometallurgicheskikh tekhnologiy pererabotki nikelsoderzhashchego syrya : avtoreferat dissertatsii … doktora tekhnicheskikh nauk (Improvement of existing and development of new pyrometallurgical processing technologies of nickelferrous raw materials : thesis of inauguration of dissertation ... of Doctor of Engineering Sciences). Saint Petersburg, 2004. 48 p. 10. Karpenko N. V., Pavlov A. A., Khromov V. N. Chislo razovykh prob pri oprobovanii rud i produktov obogashcheniya s poputnym soderzhaniem blagorodnykh metallov (Number of once-only samples with testing the ores and benefication products with the following content of noble metals). Trudy instituta mekhanicheskoy obrabotki poleznykh iskopaemykh (Proceedings of the institute of mechanical processing of mineral resources). Leningrad, 1978. pp. 121–125. 11. Probootbiranie i analiz blagorodnykh metallov (Selection of samples and analysis of noble metals). Under the editorship of I. F. Baryshnikov. Moscow : Metallurgiya, 1978. 432 p. 12. Kozin V. Z. Oprobovanie na obogatitelnykh fabrikakh (Sampling on the concentrating mills). Moscow : Nedra, 1988. 287 p. 13. STP 79-12-241–2009. Metodika vypolneniya izmereniy massovykh doley platiny, palladiya, rodiya, ruteniya, iridiya i zolota v probakh rud sulfidnykh medno-nikelevykh, obektov geologorazvedochnykh ekspeditsiy i produktov OAO “Gorno-Metallurdicheskiy Kombinat “Norilskiy nikel” atomno-emissionnym i mass-spektrometricheskim metodami s induktivno svyazannoy plazmoy posle kontsentrirovaniya v nikelevyy shteyn (Enterprise standard 79-12-241–2009. Methodology of weight fractions measuring of platinum, palladium, rhodium, ruthenium, irridium and gold in the samples of sulphide copper-nickel ores, objects of geological prospecting expeditions and products of “Norilsk Nickel” Mining and Metallurgical Complex by atomic-emissive and mass-spectrometric methods with the inductively connective plasma after concentration in the nickel mattle). 14. Nalimov V. V. Primenenie matematicheskoy statistiki pri analize veshchestva (Application of mathematical statistics with the analysis of substance). Moscow : State Publishing House of Physical and Mathematical Literature, 1960. 15. Glazatov A. N., Blekhshteyn B. L., Lukashova M. V., Morgoslep V. I., Shabunina N. A. Tsvetnye Metally — Non-ferrous metals. 2011. No. 8/9. pp. 189–193. |