Comparative ecological and greenhouse analysis of alternative coke-less processes for making pig iron and steel / Lisienko V.G., Lapteva A.V., Chesnokov Yu.N. // Metallurgist. - 2011. - V. 55, l. 7-8. - P. 471-477.

ISSN:
00260894
Type:
Article
Abstract:
A comparative analysis is made of greenhouse-gas emissions by alternative coke-less metallurgical processes for making pig iron, metallized pellets, and steel. The concept of technological greenhouse number is used in the analysis. Specific data obtained as part of an environmental-energy analysis of the given processes show that DA-V technology (direct alloying with vanadium) and the Romelt process have advantages over the other solid- and liquid-phase metallurgical processes. A comparison is also made between the energy content of the different technologies and the losses incurred due to hazardous emissions and greenhouse gases. © 2011 Springer Science+Business Media, Inc.
Author keywords:
Carbon dioxide; Coke-less metallurgical processes; Greenhouse gas; Technological fuel number; Technological greenhouse number
Index keywords:
Analysis of alternatives; Comparative analysis; Direct alloying; Energy content; Greenhouse-gas emissions; Hazardous emissions; Iron and steel; Liquid Phase; Metallurgical process; Technological fuel
DOI:
нет данных
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Affiliations Yeltsin Ural Federal University (UrFU), Yekaterinburg, Russian Federation
Author Keywords Carbon dioxide; Coke-less metallurgical processes; Greenhouse gas; Technological fuel number; Technological greenhouse number
References Lisienko, V.G., Shchelokov, Y.M., Lapteva, A.V., Energy problems in the development technologies for the production of ferrous metals (2008) Chern. Met.: Byul. NTiE, 1304 (8), pp. 60-67; Lisienko, V.G., Shchelokov, Y.M., Lapteva, A.V., Energy possibilities of coke-less technologies for the production of ferrous metals (2008) Izv. Vyssh. Uchebn. Zaved. Chern. Metall, (9), pp. 56-61; Shevelev, L.N., Evaluation of the emission of greenhouse gases at plants in the metallurgical industry (2007) Metallurg, (7), pp. 9-15; Shevelev, L.N., Methodological foundations for an inventory of greenhouse gases in Russian ferrous metallurgy (2007) Stal, 4, pp. 97-102; Shevelev, L.N., Evaluating emissions of greenhouse gases in Russian ferrous metallurgy (2008) Chern. Met.: Byul. NTiEI, 8 (1304), pp. 3-8; Kalenskii, I.V., Recommendations on accounting for CO2 emissions at ferrous metallurgy plants (2007) Stal, 5, pp. 121-129; Lisienko, V.G., Soloviova, N.V., Trofimova, O.G., (2007) Alternative Metallurgy: The Problem of Alloying and Model Estimates of Efficiency [In Russian, , Teplotekhnik, Moscow; Lisienko, V.G., Shchelokov, Y.M., Ladygichev, M.G., (2004) Fuel: Efficient Combustion, Management, and Technological Use, , [in Russian], Teplotekhnik, Moscow; Lisienko, V.G., Shchelokov, Y.M., Rozin, S.E., (2001) Methodology and Informational Support for Integral Energy Analysis, , [in Russian], UGTU, Ekaterinburg; Lisienko, V.G., Druzhinina, O.G., Zobnin, B.B., (2005) Environmental-Energy Analysis, Software, and Mitigation of Environmental-Economic Losses, , UGTU, Ekaterinburg; Lisienko, V.G., (2008) Improving and Increasing the Efficiency of Energy-Intensive Technologies and Production Processes. Integrated Environmental-Energy Analysis: Theory and Practice, , [in Russian], Tepoltekhnik, Moscow; Romenets, V.A., Valavin, V.S., Usachev, A.B., (2005) The Romelt Process, , [in Russian], ID Ruda i Metally, Moscow; Lisienko, V.G., Shchelokov, Y.M., Ladygichev, M.G., (2005) Selected Readings on Energy Conservation, , [in Russian], Teplotekhnik, Moscow
Correspondence Address Lisienko, V.G.; Yeltsin Ural Federal University (UrFU), Yekaterinburg, Russian Federation
Language of Original Document English
Abbreviated Source Title Metallurgist
Source Scopus