PROCESSING AND COMPLEX USAGE OF MINERAL RAW MATERIALS | |
ArticleName | Improving efficiency of return water clarification in gas-cleaning system cycle at oxygen-converter plant of ArcelorMittal Temirtau Iron & Steel Works |
DOI | 10.17580/em.2019.02.12 |
ArticleAuthor | Korchevskyi A. N., Nazimko L. I., Mazhan O. K., Kholodov K. A. |
ArticleAuthorData | Donetsk National Technical University, Donetsk, Donetsk People’s Republic/Ukraine: Korchevskyi A. N., Head of the Department of Mineral Processing, Professor, Candidate of Engineering Sciences, korcheval737@gmail.com Kerch State Maritime Technological University, Kerch, Russia: Nazimko L. I., Head of the Department of Marine Ecology, Professor, Doctor of Engineering Sciences
Donetsk National University, Donetsk, Donetsk People’s Republic/Ukraine: |
Abstract | The article presents the industrial tests results on clarification of return water in gas cleaning system cycle at the oxygen-converter plant of ArcelorMittal Temirtau Iron & Steel Works. The authors show that the use of organic reagents of the series Flopam SNF provides high efficiency of sedimentation of suspended solids by enlarging the size of floccules, which accelerates their deposition as a result. At the same time, the quality of return water significantly improves, and return water is suitable for multi-use in industrial closed-loop water cycle. The settled solid phase in the form of fine dispersed particles represents the ironcontaining material with total iron content of up to 45%. This material can be returned to the production cycle provided that efficient technologies for its capture and enrichment are used. Reconstruction and modernization of wet gas cleaning sites at blast furnace and oxygen-converter plants will allow on-site production of to 20 million m3/year of industrial water without treatment and clarification in external settling pond. At the same time, the captured solid phase in the amount up to 35 thousand tons of the iron-containing material will have characteristics acceptable for the agglomeration cycle. The same volume will be withdrawn from the total solid phase storage in currently operating external sedimentation tanks. The introduction of the modifications will lead to essential decrease in volume of slime pumped to external settlers, which will cut down energy consumption and operational expenses of the gas cleaning site. Termination of the polluted water discharge will contribute to saving of water resources, efficient use of iron-containing raw material and enhancement of environmental protection in the region. The authors are grateful to the personnel of the workshops and of the Water Body Protection Laboratory of the Environmental Department of ArcelorMittal Temirtau for their assistance, advice and participation in the testing. |
keywords | Gas cleaning plants, return water, clarification, reagent, efficiency, water resources, conservation, environmental protection |
References | 1. Bolshina E. P. Ecology of metallurgical production Available at: http://nmetau.edu.ua/file/ktemp_15502.pdf (accessed: 9.08.2018). |
Full content | Improving efficiency of return water clarification in gas-cleaning system cycle at oxygen-converter plant of ArcelorMittal Temirtau Iron & Steel Works |