Журналы →  Tsvetnye Metally →  2020 →  №5 →  Назад

85-th ANNIVERSARY OF CHELYABINSK ZINC PLANT
TECHNOLOGIES, IMPLEMENTED IN PRODUCTION
Название Waelz process adopted by Chelyabinsk Zinc Plant to process copper plant dusts
DOI 10.17580/tsm.2020.05.06
Автор Vyatkin V. N., Shumilin Yu. P., Bovykin K. V.
Информация об авторе

Chelyabinsk Zinc Plant PJSC, Chelyabinsk, Russia:

V. N. Vyatkin, Lead Process Engineer at the Engineering Centre, e-mail: vsv@zinc.ru
Yu. P. Shumilin, Lead Process Engineer at the Engineering Centre
K. V. Bovykin, Principal Process Engineer at the Operations Department

Реферат

Processing of copper plant dusts helps tackle two very important problems. It enables to obtain additional zinc and dispose of metallurgical waste. This paper describes the chemical composition of the processed copper industry products, the current processing capacity, as well as the results achieved since the Waelz process was adopted. Since the Waelz process was adopted by the Chelyabinsk Zinc Plant to handle copper dusts generated by the production sites belonging to the Ural Mining and Metallurgical Company, the processing capacity has risen since 2015 by 85% reaching 29 th t/y. The authors substantiate why fluxing agents should be added to the charge of a Waelz kiln designed to process copper industry zinc- and lead-containing dusts together with zinc cake. The paper describes the results achieved since the dust granulation process was adopted, which was implemented with intensive granulating mixers by Eirich. Processing of copper plant dusts by the Chelyabins k Zinc Plant helps tackle the following problems. It ensures comprehensive processing of a polymetallic man-made material while extracting non-ferrous metals, which are present in the material in considerable amounts; a selective extraction of zinc from a complex composition material into a hydrometallurgically processable concentrate; conversion of lead contained in the dusts into a hydrometallurgically processable concentrate, and the concentrate can then be converted into a carbonized lead cake containing more than 40% of the metal, which can be melted in lead kilns. An innovative technique belonging to the pyrometallurgical stage involves calcination of dusts in order to remove chlorine and fluorine compounds preventing zinc and lead from sublimation. The calcination process can be combined with a selective extraction of lead by sulphide sublimation. The paper describes the results of a pilot test, which resulted in the removal of 96.9% of chlorine, 86.2% of fluorine and 69.8% of lead from the dust. The technique of selective separation of zinc, lead and tin proves effective when the concentration of tin in the initial material (i.e. copper plant dusts) is relatively high — at least 2.5%.

Ключевые слова Waelz process, Waelz oxide, calcination, distillation, granulation, disposal, zinc, lead
Библиографический список

1. Steinacker S. Recycling of residues from the copper industry. EMC 2015. Vol. 2. pp. 1122–1125.
2. Antrekowitsch J., Steinlechner S., Schneeberger G., Evaluation and recycling potential of different zinc containing residues from metallurgical industry. Lead-Zinc 2010, TMS. pp. 851–859.
3. Grudinskiy P. I., Dyubanov V. G., Kozlov P. A. Copper smelter dust as an innovative material for the extraction of non-ferrous metals by Waelz process. Perspektivnye materialy. 2018. No. 12. pp. 74–81.
4. Selivanov E. N., Skopov G. V., Gulyaeva R. I., Matveev A. V. Material composition of the precipitator dust from Sredneuralsk Smelter Plant’s Vanyukov furnace. Metallurg. 2014. No. 5. pp. 92–95.
5. Zatonskiy A. V., Bovykin K. V., Asadulin R. R., Golubeva E. V. Development and testings of industrial technology of lead cake carbonization. Tsvetnye Metally. 2015. No. 5. pp. 55–59.
6. Yakornov S. A., Panshin A. M., Kozlov P. A., Ivakin D. A., Golubeva E. V. Hydrometallurgical processing of Waelz oxide resulting in the production of carbonized lead cake: Process development. Metallurg. 2017. No. 10. pp. 60–66.
7. Kozlov P. A. Waelz process. Moscow : “Ore and Metals” Publishing House, 2002. 176 p.
8. P. A. Kozlov, A. M. Panshin, A. V. Zatonskiy, Yu. V. Reshetnikov, A. M. Degtyarev et al. Method of waelz process of zinc cakes. Patent RF, No. 2496895. Applied: 22.03.2012. Published: 27.10.2013. Bulletin No. 30.
9. Yakornov S. A., Panshin A. M., Kozlov P. A., Ivakin D. A. Pelletizing of burden using EAF dusts for pyrometallurgical processing in rotary kilns: Process development. Metallurg. 2017. No. 7. pp. 25–29.
10. Karataeva A. V. Pelletizing of copper containing materials and metallurgical waste: Understanding the regularities and process development.
Extended abstract of PhD dissertation. Yekaterinburg : UGGU, 2012. 20 p.
11. Luxiong G., Jianzhi L., Youcai Z., Yiqi X. Leaching Process for Comprehensive Recovery of Valuable Metals from Copper Smelter Dust with Low Indium. Chinese Journal of Rare Metals. 2008. Vol. 32, No. 1. pp. 88–93.
12. Kovyazin A. A., Krayukhin S. A., Naboychenko S. S. Processing of fine copper smelter dusts. Proceedings of the 5 th International Conference – School of Chemical Technology. 16–20 May, 2016 Volgograd, Yekaterinburg. 2016. Vol. 2. Volgograd. 2016. pp. 235–236.
13. Yusupkhodzhaev A. A., Matkarimov S. T., Yavkochiva D. O. Processing of copper smelter dusts in a separate cycle. Science and innovation in the 21st century: Important problems, discoveries and achievements: Proceedings of the 11th International Conference in 3 parts. 2018. pp. 123–125.
14. Piroskova J., Laubertova M., Miskufova A., Orac D. Hydrometallurgical Treatment of Copper Shaft Furnace Dust for Lead Recovery. Erzmetall. 2018. Vol. 71, Iss. 1. pp. 37–42.
15. Panshin A. M., Reshetnikov Yu. V., Ivakin D. A., Geraskin V. V. Research and development of hydrometallurgical processing stage in copper industry wastes' recycling technology with tin recovery into tin concentrate. Tsvetnye Metally. 2015. No. 5. pp. 51–55.
16. Kozlov P. A., Panshin A. M., Vyatkin V. N., Reshetnikov Yu. V. Research and development of pyrometallurgical technology of processing of copper industry wastes with extraction of zinc, lead, and tin. Tsvetnye Metally. 2015. No. 5. pp. 46–51.
17. Grudinskiy P. I., Dyubanov V. G., Kozlov P. A. Understanding the processes of copper smelter dust distillation and primary lead extraction. Metally. 2018. No. 1. pp. 9–16.
18. Degtyarev A. M., Ivakin D. A., Shumilin Yu. P., Mayorov S. P. Mastering of technology of waelz-oxide calcination in pipe rotary furnace. Tsvetnye Metally. 2015. No. 5. pp. 31–35.

Language of full-text русский
Полный текст статьи Получить
Назад