REVIEW OF EQUIPMENT, TECHNOLOGIES AND PROJECTS OF MODERN ORE AND ROCK SORTING SYSTEMS

The introduction of low-cost technology for the preliminary enrichment of goldcontaining ores by sensor methods of lump separation allows to control the quality of ore and
stabilize and improve the qualitative composition of commercial ore at the ore preparation stages,
which is sent for deep processing by removing barren rock, which in turn improves the technicaleconomic and environmental indicators of mining and processing complexes

Название журналаTechnical science and innovation
Номер выпуска2023, №2(16)
Количество просмотров 65

Ссылка в интернете

DOI

Дата создание в систему UzSCI 13-09-2023

Количество прочтений 65

Дата публикации 11-09-2023

Язык статьиIngliz

Страницы122-128

Ключевые слова

color

enrichment

laser

thermal

gold-containing ores

lump separation

X-ray absorption

X-ray fluorescence

X-ray luminescence

infrared

magnetic resonance

English

The introduction of low-cost technology for the preliminary enrichment of goldcontaining ores by sensor methods of lump separation allows to control the quality of ore and
stabilize and improve the qualitative composition of commercial ore at the ore preparation stages,
which is sent for deep processing by removing barren rock, which in turn improves the technicaleconomic and environmental indicators of mining and processing complexes

Ключевые слова

color

enrichment

laser

thermal

gold-containing ores

lump separation

X-ray absorption

X-ray fluorescence

X-ray luminescence

infrared

magnetic resonance

№ Имя автора Должность Наименование организации

1 Temirov K.M. teacher TSTU

2 Norkulov M.B. researcher TSTU

№ Название ссылки

1 A.I. Romanchuk., A.V. Tikhvinsky., V.V. Zharkov., V.A. Bogomolova. Photometric separation of gold ores of different types. “Mining information and analytical bulletin”, 2013. 109.

2 C. Robben., H. Wotruba. Sensor-based ore sorting technology in mining-past, present and future. “Minerals”, 2019. 523.

3 A.Y. Fedorov., V.Y. Potapov., V.V. Potapov. X-ray radiometric separators for the enrichment of mineral and technogenic raw materials. New Technologies Series: “Mining equipment and electromechanics”, 2006. 18.

4 K.S. Sanakulov., S.V. Rudnev. Complex of X-ray radiometric enrichment of sulfide ores of the Kokpatas deposit. “Mining Bulletin of Uzbekistan”, 2010. 3.

5 H. Wotruba., H. Harbeck. Sensor-based sorting. In: Elvers, B. (Ed.). “Ullmann’s encyclopedia of industrial chemistry”, John Wiley and Sons, Weinheim, 2010.

6 H. Knapp., K. Neubert., C. Schropp., H. Wotruba. Viable applications of sensor-based sorting for the processing of mineral resources. “Chem. Ing. Tech”, 2014. 773.

7 B.A. Wills., J.A. Finch. “Wills’ mineral processing technology: an introduction to the practical aspects of ore treatment and mineral recovery, 8th edn”, Elsevier, Amsterdam, 2018.

8 K. Neubert., H. Wotruba. Investigations on the detectability of rare-earth minerals using dual-energy X-ray transmission sorting. “Journal of sustainable metallurgy”, 2016. 78

9 J.K. Olshlegel., V.A. Rassulov., E.V. Nerushchenko. Preliminary enrichment of gold-quartz ore by X-ray absorption method on the “Mogensen” separator. “Gold and technologies”, 2017. 46

10 B.S. Lagov., P.B. Lagov. “Radiometric sorting and separation of solid minerals”, Moscow, 2007. 155.

11 Miguel A. Fernandes, Samuel G. Matos, Emanuel Peres, Carlos R. Cunha, Juan A. Lopez, P.J.S.G. Ferreira, M.J.C.S. Reis, Raul Morais. A framework for wireless sensor networks management for precision viticulture and agriculture based on IEEE 1451 standard. “Computers and electronics in agriculture”, 2013. 19.

12 C. Klein., H. Wotruba., R. Matilda. A new tool for mining engineers-sensor-based sorter. “Sustainable development in the mining Industry (SDIMI) conference”, Aachen, Germany, 2011.

13 S. Luther., I.N. Wardana., S. Rudy., W. Slamet. Angled and curved bladesof deep-water wheel efficiency. “Australian journal of basic and applied sciences”, 2014. 186

14 H. Harbeck., H.Krug. “New developments in sensor-based sorting [Journal]”, Aufbereitungs Technic 49. 2008. 4.

15 H. Wotruba., M.R. Robben., D. Baltazar. Near-infrared sensor-based sorting in the mining industry. In Proc. Mineral development conference. “Luleå University of Technology”, Luleå (Sweden), 2009. 163.

16 G.S. Naivel't. Power sources for radio electronic equipment. “Radio and communication”, Moscow, 2017.

17 S.V. Tregubov., V.A. Panteleev., O.G. Freze. “General principles of selecting varistors for protection against impulse voltages”, 2015.

18 B.S. Zavarykin., S.V. Kuzmin., R.S. Kuzmin., V.A. Menshikov. Electrical and electronic apparatus for electromechanical systems in mining. Laboratory practical work. “Krasnoyarsk: Siberian Federal University”, 2013. 112.

19 S.S. Syssoeva. XMR Microsystems-an alternative to hall sensors in current measurement systems. “Components and technologies”, 2012. 42.

В ожидании

№	Название ссылки
1	A.I. Romanchuk., A.V. Tikhvinsky., V.V. Zharkov., V.A. Bogomolova. Photometric separation of gold ores of different types. “Mining information and analytical bulletin”, 2013. 109.
2	C. Robben., H. Wotruba. Sensor-based ore sorting technology in mining-past, present and future. “Minerals”, 2019. 523.
3	A.Y. Fedorov., V.Y. Potapov., V.V. Potapov. X-ray radiometric separators for the enrichment of mineral and technogenic raw materials. New Technologies Series: “Mining equipment and electromechanics”, 2006. 18.
4	K.S. Sanakulov., S.V. Rudnev. Complex of X-ray radiometric enrichment of sulfide ores of the Kokpatas deposit. “Mining Bulletin of Uzbekistan”, 2010. 3.
5	H. Wotruba., H. Harbeck. Sensor-based sorting. In: Elvers, B. (Ed.). “Ullmann’s encyclopedia of industrial chemistry”, John Wiley and Sons, Weinheim, 2010.
6	H. Knapp., K. Neubert., C. Schropp., H. Wotruba. Viable applications of sensor-based sorting for the processing of mineral resources. “Chem. Ing. Tech”, 2014. 773.
7	B.A. Wills., J.A. Finch. “Wills’ mineral processing technology: an introduction to the practical aspects of ore treatment and mineral recovery, 8th edn”, Elsevier, Amsterdam, 2018.
8	K. Neubert., H. Wotruba. Investigations on the detectability of rare-earth minerals using dual-energy X-ray transmission sorting. “Journal of sustainable metallurgy”, 2016. 78
9	J.K. Olshlegel., V.A. Rassulov., E.V. Nerushchenko. Preliminary enrichment of gold-quartz ore by X-ray absorption method on the “Mogensen” separator. “Gold and technologies”, 2017. 46
10	B.S. Lagov., P.B. Lagov. “Radiometric sorting and separation of solid minerals”, Moscow, 2007. 155.
11	Miguel A. Fernandes, Samuel G. Matos, Emanuel Peres, Carlos R. Cunha, Juan A. Lopez, P.J.S.G. Ferreira, M.J.C.S. Reis, Raul Morais. A framework for wireless sensor networks management for precision viticulture and agriculture based on IEEE 1451 standard. “Computers and electronics in agriculture”, 2013. 19.
12	C. Klein., H. Wotruba., R. Matilda. A new tool for mining engineers-sensor-based sorter. “Sustainable development in the mining Industry (SDIMI) conference”, Aachen, Germany, 2011.
13	S. Luther., I.N. Wardana., S. Rudy., W. Slamet. Angled and curved bladesof deep-water wheel efficiency. “Australian journal of basic and applied sciences”, 2014. 186
14	H. Harbeck., H.Krug. “New developments in sensor-based sorting [Journal]”, Aufbereitungs Technic 49. 2008. 4.
15	H. Wotruba., M.R. Robben., D. Baltazar. Near-infrared sensor-based sorting in the mining industry. In Proc. Mineral development conference. “Luleå University of Technology”, Luleå (Sweden), 2009. 163.
16	G.S. Naivel't. Power sources for radio electronic equipment. “Radio and communication”, Moscow, 2017.
17	S.V. Tregubov., V.A. Panteleev., O.G. Freze. “General principles of selecting varistors for protection against impulse voltages”, 2015.
18	B.S. Zavarykin., S.V. Kuzmin., R.S. Kuzmin., V.A. Menshikov. Electrical and electronic apparatus for electromechanical systems in mining. Laboratory practical work. “Krasnoyarsk: Siberian Federal University”, 2013. 112.
19	S.S. Syssoeva. XMR Microsystems-an alternative to hall sensors in current measurement systems. “Components and technologies”, 2012. 42.