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РАЗРАБОТКА МЕСТОРОЖДЕНИЙ УРАНОВЫХ РУД
ArticleName Исследования возможности применения сгущенных отходов гидрометаллургической переработки урановых руд для закладки выработанного пространства рудников
DOI 10.17580/gzh.2018.07.07
ArticleAuthor Бодров А. С.
ArticleAuthorData

ПАО «ППГХО», Краснокаменск, Россия:

Бодров А. С., главный инженер ЦНИЛ

Abstract

Изложены результаты лабораторных исследований по изучению свойств закладочных смесей из отходов гидрометаллургического производства и по средствам защиты заложенных камер от радоновыделения в рудничную атмосферу.

keywords Пастовая закладка, отходы переработки урановых руд, гидрометаллургические хвосты, выработанное пространство, радоновыделение, рудничная атмосфера, изолирующие покрытия
References

1. Bitimbaev M. Zh., Krupnik L. A., Shaposhnik Yu. A. Theory and practice of stowing operations during mineral deposits mining. Gornyy zhurnal Kazakhstana. 2012. No. 5. pp. 19–25.
2. Krupnik L. A., Yusupov Kh. A., Kabetenov T. K., Myrzakhmetov S. S. Technology and mechanization of stowing operations during the inclined deposits mining. Gornyy zhurnal Kazakhstana. 2013. No. 11. pp. 8–11.
3. Lyakhov D. P. Technology of cast solid stowing manufacturing from production wastes. Underground mining : materials of International scientific conference, 15–25 April 2015. Krasnoyarsk : Sibirskiy federalnyy universitet, 2015. pp. 34–36.
4. Franks D. M. Sustainable Development Principles for the Disposal of Mining and Mineral Processing Wastes. Resources Policy. 2011. Vol. 36, No. 2. pp. 114–122.
5. Jenk U., Paul M. Flooding of the Underground Uranium Leach Operation at Konigstein. Uranium Past and Future : Proceeding of the 7th International Conference on Uranium Mining. 2012. 363 p.
6. O'Sullivan D., Newman A. Extraction and Backfill Scheduling in a Complex Underground Mine. Interfaces. 2014. Vol. 44, No. 2. pp. 104–221.
7. Emad M. Z., Vennes I., Mitri H., Kelly С. Backfill Practices for Sublevel Sloping System. Mine Planning and Equipment Selection Chapter : Proceedings of the 22nd MPES Conference, 14th–19th October 2013. Switzerland: Springer International Publishing, 2014. pp. 391–402.
8. Sheshpari M. A. Review of Underground Mine Backfill Methods with Emphasis on Cemented Paste Backfill. Electronic Journal of Geotechnical Engineering. 2015. Vol. 20, No. 13. pp. 5183–5208.
9. Priargunsky Industrial Mining and Chemical Union (PJSC PIMCU). Available at: http://www.priargunsky.armz.ru/ (accessed: 12.01.2018).
10. Montyanova A. N. Formation of stowing massifs during the development of diamond deposits in cryolithic zone. Moscow : Gornaya Kniga, 2005. 597 p.
11. Grebb R. Black range minerals. Hansen/Taylor Ranch Uranium Project. 2012 Uranium Recovery Workshop. Colorado. 2012. 15 p.
12. Kolesaev V. B., Bakulin V. A. Development of filling production in Priargunsky Mining-Chemical Corporation. Gornyi Zhurnal. 2008. No. 8. pp. 41–42.
13. Krupnik L. A., Abdykalykova R. S. Paste backfill mixtures, properties and preparation. Proceeding International Forum “Engineering Education and Science in the XXI Century: Challenges and Perspectives”. Almaty : Satpaev KazNTU, 2014. Vol. 1. pp. 360–363.
14. Qingliang С., Jianhang С., Huaqiang Z., Jianbiao В. Research Article Implementation of Paste Backfill Mining Technology in Chinese Coal Mines. The Scientific World Journal. 2014. Vol. 2014. Article id 821025.
15. Svyatetskii V. S. Feasibility of using uranium mill tailings to produce paste backfill at Priargunsky mining and chemical works. Gornyy informatsionno-analiticheskii byulleten. 2015. No. 10. pp. 37–40.
16. Bodrov A. S. Assesment of the waste application potential of hydrometallurgical tailings processing of uranium ores of Streltsovsky field during the laying of underground workings. Vestnik Zabaikalskogo gosudarstvennogo universiteta. 2017. Vol. 23, No. 1. pp. 4–10.
17. Morozov A. A., Bodrov A. S. Applicability of hydrometallurgical processing waste–uranium ore mill tailings as backfill in mines. Kulagin’s Lectures – Production Technologies and Equipment: XIV International Scientific–Practical Conference Proceedings. Chita : ZabGU, 2014. pp. 63–70.

Full content Исследования возможности применения сгущенных отходов гидрометаллургической переработки урановых руд для закладки выработанного пространства рудников
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