Study of the material composition of raw materials and the thermodynamic analysis of ore sulphidization

dc.contributor.authorBurkitseterkyzy, G.
dc.contributor.authorKatkeeva, G.L.
dc.contributor.authorOskembekov, I.M.
dc.contributor.authorGizatullina, D.R.
dc.contributor.authorZhunussov, A.M.
dc.date.accessioned2018-06-06T04:41:22Z
dc.date.available2018-06-06T04:41:22Z
dc.date.issued2017-12-30
dc.description.abstractThis research is aimed at a complex solution of two problems — increasing the efficiency of processing of oxidized copper ores and utilization of sulfur-containing waste from oil and gas processing. By the methods of chemical, mineralogical and granulometric analyzes the composition of the Sayak ore and waste sulfur was examined. It was found that the total copper content in the ore made 2.7 %, 1.8 % of which is represented by oxidized minerals. The main ore minerals are malachite, azurite, brochantite and chrysocolla. A thermodynamic analysis of the interaction of oxidized copper minerals with dissolved elemental sulfur possessing the properties of nanoparticles was carried out. The possibility in principle of copper sulfidization was established. Based on the obtained data on the thermodynamic properties of polysulfide systems, Δf H0 298.15, S0 298.15, Δf G0 298.15, Ср 0 298.15 of eight polysulfides — CaS2, CaS3, CaS4, CaS5, CaS6, CaS7, CaS8 и CaS9 were defined. The temperature dependences of the standard Gibbs energy of the reaction of dissolved sulfur with oxidized copper minerals — malachite, azurite, brochantite and chrysocolla — were defined. The possibility in principle of sulfidization of oxidized copper minerals with dissolved elemental sulfur possessing the properties of nanoparticles was established. It is shown that in the temperature range 298.15–500 K the formation of copper (II) sulfide and sulfur (IV) oxide in the interaction of oxidized copper minerals with elemental nano-sized sulfur is most likely. As the standard Gibbs energy of the sulfidation reaction increases, the minerals can be arranged in a row up to 400 K: azurite; malachite; brochantite; chrysocolla, after 400 K: azurite; brochantite; malachite; chrysocolla. In these rows, the probability of interaction with sulfur decreases.ru_RU
dc.identifier.citationStudy of the material composition of raw materials and the thermodynamic analysis of ore sulphidization/G. Burkitseterkyzy [et al]//Қарағанды универисетінің хабаршысы. ХИМИЯ Сериясы.=Вестник Карагандинского университета. Серия ХИМИЯ.=Bulletin of the Karaganda University. CHEMISTRY Series.-2017. №4.Р.88-94.ru_RU
dc.identifier.urihttps://rep.buketov.edu.kz/handle/data/3081
dc.language.isoenru_RU
dc.publisherKSU Publ.ru_RU
dc.relation.ispartofseriesҚарағанды универисетінің хабаршысы. ХИМИЯ Сериясы.=Вестник Карагандинского университета. Серия ХИМИЯ.=Bulletin of the Karaganda University. CHEMISTRY Series.;№ 4(88)/2017
dc.subjectoxidized copper oreru_RU
dc.subjectsulfidizationru_RU
dc.subjectpolysulfidesru_RU
dc.subjectsulfur-containing wasteru_RU
dc.titleStudy of the material composition of raw materials and the thermodynamic analysis of ore sulphidizationru_RU
dc.title.alternativeШикізаттың заттық құрамын зерттеу жəне кенді сульфидтеудің термодинамикалық талдауыru_RU
dc.title.alternativeИзучение вещественного состава сырья и термодинамический анализ сульфидизации рудыru_RU
dc.typeArticleru_RU

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