APPLICATION OF INJECTION TECHNOLOGIES IN METALLURGICAL PRODUCTION
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Abstract
Analysis of injection technologies shows that the largest prevalence they got d at application on powerful electric arc furnaces and at out-of-furnace processing of big volumes of metal. at the same time theoretical and experimental basis of using of injection technologies is constantly being replenished with new investigations.
References
1. Ustyugov A. A., Mamenko Yu. F., Danilin V. I., Konyuchenko G. A. Primenenie vysokomoshchnykh gazokislorodnykh gorelok na 200-tonnye DSP // Osvoenie novykh vysokomoshchnykh elektropechei / Tematicheskii otraslevoi sbornik. M., 1982. S. 32-34.
2. Tuluevskii Yu. N., Chechetkina T. N., Kuz'min A. L. i dr. Vysokomoshchnye elektropechi i novaya tekhnologiya proizvodstva elektrostali. M., 1981. S. 53-56.
3. Katsman Ts. L., Rudashevskii L. Ya., Galyan V. S. Intensifikatsiya obezuglerozhivaniya khromonikelevogo rasplava v 100-t DSP // Osvoenie novykh vysokomoshchnykh elektropechei / Tematicheskii otraslevoi sbornik. M., 1982. S. 32-34.
4. Lopukhov G. A. Primenenie kisloroda v dugovykh staleplavil'nykh pechakh // Elektrometallurgiya. 2005. № 3. S. 2-27.
5. Gulyaev M. P., Filippov V. V., Enders V. V. i dr. Pervye v SNG sistemy donnoi produvki metalla inertnymi gazami v dugovoi staleplavil'noi pechi // Chernaya metallurgiya. 2001. № 8. S. 49-52.
6. Gulyaev M. P., Filippov V. V., Enders V. V., KazakovS. V. Optimizatsiya tekhnologii plavki v dugovoi pechi s donnoi produvkoi inertnymi gazami // Stal'. 2002. № 4. S. 55-58.
7. Timoshpol'skii V. I. Rol' otechestvennoi nauchnoi shkoly v osvoenii i organizatsii proizvodstva na RUP «Belorusskii metallurgicheskii zavod» // Stal'. 2002. № 10. S. 8-14.
8. Filippov V. V., Timoshpol'skii V. I., Matochkin V. A., Tishchenko V. A., Gulyaev M. P. Novye tekhnicheskie resheniya i etapy rekonstruktsii metallurgicheskogo oborudovaniya RUP «Belorusskii metallurgicheskii zavod» // Lit'e i metallurgiya. 2002. № 1. S. 80-83.
9. Warty S. K., Mathur P. C. Praxair’s CoJet® gas injection system - delivering benefits, and gaining useful knowledge for future enhancements // Electric Furnace Conference Proceedings, ISS (Warrendale, PA), 2002.
10. Motte Zh. R., Kord'e Zh. Vduvanie poroshka v rasplavy chuguna i stali // Inzhektsionnaya metallurgiya. Lulea, Shvetsiya, 1977 / Per. s angl. M., 1981.
11. Jensen Jan. T, Wolf Kurt Reduction of EAF dust emissions by injecting it into the furnace // Metallurgical Plant and Technology International. 1997. N 3. R. 58-62.
12. Issledovanie fazovogo sostava i vosstanovimosti tsinksoderzhashchego elektropechnogo shlama / V. P. Korneev [i dr.] // Izv. vuzov. Chernaya metallurgiya. 2007. № 9. S. 35-38.
Review
For citations:
Korneev S.V. APPLICATION OF INJECTION TECHNOLOGIES IN METALLURGICAL PRODUCTION. Litiyo i Metallurgiya (FOUNDRY PRODUCTION AND METALLURGY). 2011;(2):152-159. (In Russ.)
ISSN 2414-0406 (Online)