Study of the material composition of refractory gold-bearing ore from the Aktobe deposit

Authors

  • M. Barmenshinova Satbayev University
  • I. Motovilov Satbayev University
  • Sh. Telkov Satbayev University
  • R. Omar Satbayev University

DOI:

https://doi.org/10.31643/2024/6445.34

Keywords:

золото, серебро, химический анализ, минералогический анализ, гранулометрический анализ, физико-механические свойства.

Abstract

The study of the material composition of gold-bearing ores includes the determination of quantitative chemical and mineral composition, forms of noble metals, granulometric composition, and physical and mechanical properties to choose the direction for the development of an effective technology of their complex enrichment. This work is devoted to the study of the material composition of refractory gold-bearing ore of Aktobe deposit. It was determined that the content of gold is 1.55-1.6 g/t, the mass fraction of silver is 42-43 g/t, and the content of sulphur is low and is 1-1.1% respectively. Of non-ferrous metals, zinc 0.17%, and lead 0.15% are present in insignificant amounts, and the content of harmful impurities antimony and arsenic are insignificant and amounted to 0.01 and 0.05%. The ore sample has a relatively uncomplicated mineral composition: rock-forming minerals represented by quartz, potassium feldspar, calcite, and mica predominate significantly. Ore minerals are represented by pyrite up to 10 %, limonite up to 0.5 %, galena 0.15-0.2 %, sphalerite 0.17-0.2 % and gold. Physical and mechanical properties of the ore were determined. According to the category of crushability, the ore belongs to the category of medium hardness. According to Bond's method, the "index of network Wi" of ball milling was determined for the initial ore, which was 19.3 kW∙h/t∙μm0.5. Based on the obtained data on the study of material composition, further research will be directed to the study of gravity and flotation enrichment.

Downloads

Download data is not yet available.

Author Biographies

M. Barmenshinova, Satbayev University

Candidate of Technical Sciences, Associate Professor, Head of the Department of "Metallurgy and Mineral Processing", Satbayev University, Satpayev 22, Almaty, Kazakhstan. 

I. Motovilov, Satbayev University

Doctor PhD, Associate Professor at the Department of Metallurgy and Mineral Processing, Satbayev University, Satpayev 22, Almaty, Kazakhstan.

Sh. Telkov, Satbayev University

Candidate of Technical Sciences, Associate Professor, Professor of the Metallurgy and Mineral Processing Department, Satbayev University, Satpayev 22, Almaty, Kazakhstan.

R. Omar, Satbayev University

Master of Technical Sciences, Engineer of the Metallurgy and Mineral Processing Department, Satbayev University, Satpayev 22, Almaty, Kazakhstan.

References

Zelenov VI,Metodika issledovaniya zoloto-i serebrosoderzhashchikh rud [Methodology of research of gold-and silver-bearing ores]. Moscov: Nedra.1989.(in Russ.).

Bekpulatov ZhM,Khudayberdiyev FT. Izucheniye veshchestvennogo sostava i razrabotka tekhnologii pererabotki zolotosoderzhashchey proby rudy odnogo iz mestorozhdeniy respubliki Uzbekistan[Study of material composition and development of technology of processing of gold-bearing ore sample of one of the deposits of the Republic of Uzbekistan]. Mezhdunarodnyy nauchnyy zhurnal Innovatsionnaya nauka= International scientific journal Innovative Science.2017;4(3):20-23. (in Russ.).

KenzhaliyevBK, Koizhanova AK, Atanova OV, Magomedov DR, Nurdin H. Research and developmentofgoldore processing technology. Kompleksnoe Ispolzovanie Mineralnogo Syra = Complex Use of Mineral Resources. 2024; 329(2):63-72. https://doi.org/10.31643/2024/6445.17

Umarova IK,Mengilbayev DA. Makhmarezhabov DB. Izucheniye mineralogicheskogo sostava upornykh zolotosoderzhashchikh rud mestorozhdeniya Auminzov [Study of mineralogical composition of refractory gold-bearing ores of Auminzov deposit].Scientific Progress.2021;2(5):199-205. (in Russ.).

Fedotov PK, Senchenko AE, Fedotov KV, Burdonov AE, Vlasova VE.Technology for processing low-sulfide gold-quartz ore. Izvestiya Tomskogo politekhnicheskogo universiteta. Geoaktivy inzhenerii= Bulletin of the Tomsk Polytechnic University. Geo Аssets Engineering.2022;333(6):178-189. https://doi.org/10.18799/24131830/2022/6/3540

Leonov SB,Belkova ON. Issledovaniye poleznykh iskopayemykh na obogatimost [Studiesofmineralresourcesformineralprocessing]. Moscow: Intermet Engineering.2001.

Marchevskaya VV,Mukhina TN. Izucheniye fiziko-mekhanicheskikh svoystv gornykh porod mestorozhdeniy malosulfidnykh rud Kolskogo poluostrova [Study of Physical and Mechanical Properties of Rocks of Low-Sulphide Ore Deposits of the Kola Peninsula]. Vestnik Kolskogo nauchnogo tsentra RAN = Bulletin of the Kola Scientific Centre of the Russian Academy of Sciences. 2011;3:35-39.(in Russ.).

Shautenov MR, Telkov ShA, Begalinov AB, Motovilov IYu, Akkazina NT. Granulometricheskiy sostav i kharakter raspredeleniya redko-zemelnykh elementov rudy kory vyvetrivaniya [Granulometric composition and character of distribution of rare-earth elements of weathering crust ores]. Gornyy zhurnal Kazakhstana = Mining Journal of Kazakhstan 2013;1-2:88-93.(in Russ.).

Semushkina LV,Narbekova SM. On the possibility of flotation processing of technogenic gold-containing waste from enrichment plants. Challenges of Science.2021;IV:40-47. https://doi.org/10.31643/2021.06

Avdeyev AN, Sosnovskaya EL, Bolotnev AYu,Batzhargal D. Osobennosti izucheniya fiziko-mekhanicheskikh svoystv mnogoletnemerzlykh massivov gornykh porod pri otsenke geomekhanicheskikh usloviy rudnykh mestorozhdeniy[Peculiarities of studying physical and mechanical properties of perennially frozen rock massifs at estimation of geomechanical conditions of ore deposits]. Nauki o Zemle i nedropolzovaniye= Earth Sciences and Subsoil Use. 2019;42(2):240-253. (in Russ.). https://doi.org/10.21285/2541-9455-2019-42-2-240-253

Avdeyev AN, Sosonovskaya EL, Bolotnev AYu. Otsenka koeffitsiyenta kreposti gornykh porod kosvennymi metodami [Estimation of rock strength coefficient by indirect methods]. Izvestiya vysshikh uchebnykh zavedeniy. Gornyy zhurnal = Proceedings of Higher Educational Institutions. Mining Journal.2021;3:28-35. (in Russ.). https://doi.org/10.21440/0536-1028-2021-3-28-35

Bond FC.The third theory of comminution.Transactions on AIME Mining Engineering. 1952;193:484-494.

Taranov VA, Aleksandrova TN. Otsenka prochnostnykh svoystv rudy kak faktor povysheniya effektivnosti protsessa izmelcheniya [Estimation of ore strength properties as a factor of increasing the efficiency of the grinding process]. Gornyy informatsionno-analiticheskiy byulleten = Mining information-analytical bulletin. 2015;4:119-123.(in Russ.).

Motovilov IYu, Telkov ShA, Barmenshinova MB, Nurmanova AN. Examination of the preliminary gravity dressing influence on the Shalkiya deposit complex ore. Non-ferrous metals.2019;2:3-8. https://doi.org/10.17580/nfm.2019.02.01

Lvov VV, Chitalov LS. Sovremennyye tendentsii podkhodov k raschetu rudopodgotovitelnykh protsessov apparatov dlya pererabotki rud tsvetnykh metallov[Modern tendencies of approaches to calculation of ore preparation processes of apparatuses for processing of non-ferrous metal ores]. Tsvetnyye metally= Non-ferrous metals.2020;10:20-26. (in Russ.). https://doi.org/10.17580/tsm.2020.10.03

Telkov ShA, Motovilov IYu, Barmenshinova MB. Issledovaniye vliyaniya predvaritelnoy kontsentratsii na izmelchayemost polimetallicheskikh rud [Investigation of influence of preliminary concentration on pulverisability of polymetallic ores]. Vestnik KazNITU = Bulletin of KazNRTU.2020;4:623-628. (in Russ.).

Telkov SA, Motovilov IY, Abisheva ZS, BarmenshinovaMB. Study of the gravity enrichment of Shalkiya deposit lead-zinc ores. XXX International Mineral Processing Congress Proceedings IMPC 18-22 October 2020 Cape Town South Africa.2020, 821-833.

Telkov ShA, Motovilov IYu, Barmenshinova MB, Abisheva ZS. Izucheniye gravitatsionno-flotatsionnogo obogashcheniya svintsovo-tsinkovoy rudy mestorozhdeniya Shalkiya [Gravity-flotation concentration of lead-zinc ore at the Shalkiya deposit]. Obogashcheniye rud = Ore dressing. 2021;6:3-9.(in Russ.). https://doi.org/10.17580/or.2021.06.02

Chitalov LS, Lvov VV. Sravnitelnaya otsenka metodov opredeleniya rabochego indeksa sharovogo izmelcheniya Bonda [Comparative evaluation of methods for determining the working index of Bond ball milling]. Gornyy informatsionno-analiticheskiy byulleten = Mining information-analytical bulletin.2021;1:130-145. (in Russ.). https://doi.org/10.25018/0236-1493-2021-1-0-130-145

Koyzhanova AK, Kenzhaliev BK, Magomedov DR, Abdyldaev NN. Development of a combined processing technology for low-sulfide gold-bearing ores. Obogashchenie Rud. 2021;2;3-8. https://doi.org/10.17580/or.2021.02.01

Downloads

Published

2023-12-12

How to Cite

Barmenshinova, M., Motovilov, I., Telkov, S., & Omar, R. (2023). Study of the material composition of refractory gold-bearing ore from the Aktobe deposit. Kompleksnoe Ispolzovanie Mineralnogo Syra = Complex Use of Mineral Resources, 331(4), 5–11. https://doi.org/10.31643/2024/6445.34

Issue

Section

Engineering and technology