STUDY OF THE POSSIBILITY OF METALS EXTRACTING FROM PICKLE LIQUORS
Аннотация и ключевые слова
Аннотация (русский):
Nowadays, there is an increase in the amount of waste containing heavy metals, which has a negative impact on the environment and humans. This article deals with the process of extracting copper and other valuable components from jewellery waste using magnesium turnings - a waste product of the machine-building industry. This method makes it possible to utilise three different waste products at once, which is economically and ecologically attractive.

Ключевые слова:
jewellery waste, refining, heavy metals, magnesium turnings, pickle liquors
Текст
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Список литературы

1. Lugovoi, V.P. (2012) Technology of jewellery production. Minsk: Novoye znanie; M.: INFRA-M (in Russian).

2. Datsenko, V.V. & Khobotova, E.B. (2013) Ecological approach to solving the problem of electroplating waste disposal. Ecologiya i promishlennost Rossii, (2), pp. 10-13. DOI:https://doi.org/10.18412/1816-0395-2013-2-10-13 (in Russian).

3. Fedosova, A.A. & Akhlyustin, A.S. (2018) Effective technology for joint recycling of waste brass and spent pickling solutions. Gal'vanotekhnika i obrabotka poverhnosti, 26(1), pp. 16-18. DOI:https://doi.org/10.47188/0869-5326_2018_26_1_16 (in Russian).

4. Kalyukova, E.N., Savinykh, V.V. & Vorontsov, A.O. (2013) Utilization of hydrochloric acid spent pickling solutions containing heavy metal ions. Vestnik SGASU. Gradostroitel'stvo i arhitektura, 4(13), pp. 42-44. DOI:https://doi.org/10.17673/Vestnik.2013.S4.12 (in Russian).

5. Jewellery production [online]. Available at: www.znaytovar.ru/new489.html (accessed on 01.05.2022).

6. Borisov, A.N. Commentary to the Federal Law "On Precious Metals and Precious Stones" of March 26, 1998 No. 41-FZ (article-by-article). [online]. Available at: https://uvelir.info/media/xvn/files/2014/01/29/96866361652e84ead1f559.pdf?ysclid=l4fik0mt7c868790563 (accessed on 01.05.2022).

7. Evdokimova, N.A. & Makarov, V.M. (2005) Utilisation of copper-containing spent pickling solutions. Ecologiya i promishlennost Rossii, (1), pp. 28-29. DOI:https://doi.org/10.18412/1816-0395-2005-1-28-29 (in Russian).

8. Vinnikova, O.S., Lukashov, S.V. & Pashayan, A.A. Method of utilization of spent pickling solutions containing iron(II) sulphates and chlorides. 2428522 RF (in Russian).

9. Poluboyarinov, P.A. (2018) Use of metallic magnesium for neutralisation of copper-containing pickling solutions. Tekhnosfernaya bezopasnost'. Sovremennye realii. Sbornik materialov regional'noj nauchno-prakticheskoj konferencii. Makhachkala, November 21, 2018. Makhachkala: Dagestan State Technical University, pp. 23-25 (in Russian).

10. Andreev, S.Y., Garkina, I.A., Poluboyarinov, P.A. & Knyazev, V.A. (2015) New technology for neutralization of highly concentrated copper-containing spent pickling solutions. Regional'naya arhitektura i stroitel'stvo, 4(25), pp. 102-108 (in Russian).

11. Khranilov, Y.P., Lobanova, L.L., Eremeeva, T.V. & Bobrov, M.N. (2019) Utilization of nickel, chromium and copper from some wastes of electroplating production. Utilizaciya othodov proizvodstva i potrebleniya: innovacionnye podhody i tekhnologii. Materialy Vserossijskoj nauchno-prakticheskoj konferencii s mezhdunarodnym uchastiem. Kirov, 4 December 2019. Kirov: Vyatka State University, pp. 35-39 (in Russian).

12. Filippov, A.A., Pachurin, G.V., Rebrushkin, M.N. & Konyukhova, N.S. (2020) Reduction of complex influence of dangerous and harmful factors in conditions of steel wire production. XXI vek. Tekhnosfernaya bezopasnost', 5(2), pp. 222-232. DOI:https://doi.org/10.21285/2500-1582-2020-2-222-232 (in Russian).

13. Kladnig, W. (1991) Industrielle Oxidrohstoffe - Herstellung nach dem Andritz-Ruthner-Sprührostverfehren. Sprechsaal, 124(11/12).

14. Makarov, V.M. & Frolova, E.A. (2014) Industrial Ecology. Hazardous Waste Management. Yaroslavl: Izd-vo YaGTU (in Russian).

15. Lurie, Yu.Y. & Rybnikova, A.I. (1974) Chemical analysis of industrial wastewater. M.: Khimiya (in Russian).

16. Lurie, Yu.Y. (1984) Analytical Chemistry of Industrial Wastewater. M.: Khimiya (in Russian).

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