Development of a technology for obtaining flotation reagent oxane-3 for carbon mineral raw materials of Kazakhstan
Abstract
The paper represents the results of development of a technology for obtaining oxane-3 and its application for enrichment of carbon mineral raw materials. Studies on enrichment of a shungite rock showed that the increase of a pulp temperature to 30°C significantly improves the characteristics and rate of the flotation process. Measured indicators of a shungite rock enrichment using Flotol B were lower in comparison with an enrichment by oxane-3. For schungite mineral, it was established that the obtained heterocyclic compound can replace existing industrial flotation reagents in enrichment processes.
References
1 Kalugin SN (2007) Chemical Bulletin of Kazakh National University 1:28–31. (In Russian)
2 Kalugin SN (2008) News of the National Academy of Sciences of RK [Izvestiya NAN RK] 5:40–44. (In Russian)
3 Nechipurenko SV, Shilina Yu, Efremov SA, Nauryzbaev MK (2006) Chemical Journal of Kazakhstan [Himicheskii zhurnal Kazakhstana] 3:219-224. (In Russian)
4 Omarova DA Baijumanova RA, Tusupbaev NK, Kalugin SN, Abilov ZA, Abdikulova A (2012) Chemical Bulletin of Kazakh National University 1:336–339. (In Russian)
5 Bekturganov NS, Tusupbaev NK, Semushkina LV, Kaldybaev ZA, Kalugin SN (2008) Method for processing polymetallic copper-lead-zinc ore [Sposob pererabotki polimetallicheskoi medno-svinzovo-cinkovoi rudy]. Certificate of Authorship [Avtorskoe svidetelstvo] No. 59846. (In Russian) http://dx.doi.org/10.15328/chemb_2012_1336-339
6 Kalugin SN, Omarova DA, Tusupbaev NK, Semushkina LV, Turysbekov DK, Mukhanova AA Satylganov SB, Bekishev CB (2013) Application of the new foaming agent "Heptyl" in flotation of sulphide ores [Primenenie novogo penoobrazovatelya "Geptil" pri flotatsionnom obogaschenii sulfidnyih polimetallicheskih rud]. Proceedings of the XVIII International Scientific and Technical Conference "Scientific bases and practice of processing ores and technogenic raw materials" [Materialy XVIII Mezhdunarodnoy nauchno-tehnicheskoy konferentsii "Nauchnyie osnovy i praktika pererabotki rud i tehnogennogo syrya"], Ekaterinburg, Russia. P.234-236. (In Russian)
7 (1974) Chemical analysis of rocks and minerals [Himicheskiy analiz gornyih porod i mineralov]. Nedra, Moscow, Russia. (In Russian)
8 (1985) Quantitative elemental organic analysis. Methodical development [Kolichestvennyi elementnyi organicheskiy analiz. Metodicheskaya razrabotka], Part 1. Alma-Ata, Kazakhstan. (In Russian)
9 (2002) GOST 4790-93. Solid fuel. Determination and representation of indicators of fractional analysis. General requirements to equipment and methods. [Toplivo tverdoe. Opredelenie i predstavlenie pokazateley fraktsionnogo analiza. Obschie trebovaniya k apparature i metodike]. Moscow, Russia. (In Russian)
10 Nechipurenko SV Duhnitsky VN, Efremov SA, Nauryzbaev MK (2006) Production of carbon-mineral sorbents based shungite [Proizvodstvo uglerod-mineralnyih sorbentov na osnove shungitovyih porod]. Proceedings of the II All-Russian scientific conference “Sorbents as a factor in quality of life and health”, dedicated to the 130th anniversary of the Belgorod State University [Materialy II Vserossiyskoy nauchnoy konferentsii «Sorbenty kak faktor kachestva zhizni i zdorovya», posvyaschennoy 130-letiyu Belgorodskogo gosudarstvennogo universiteta], Moscow - Belgorod, Russia. P.170-173. (In Russian)
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Authors retain copyright and grant the journal right of first publication with the work simultaneously licensed under a Creative Commons Attribution License (CC BY-NC-ND 4.0) that allows others to share the work with an acknowledgement of the work's authorship and initial publication in this journal.
