As a result of the analysis of the modern methods of precious metal ore separation, a technological scheme of pneumatic separation of bulk materials in a fluidized bed is proposed in the article. For the development of new highly efficient designs of devices with a fluidized bed, methods of system analysis were used and mathematical and computer models of the process were obtained. As a result of the study of the industrial waste composition from mining and metallurgical plants, it was determined that the composition of industrial waste contains particles of different densities and sizes. To determine the speed of the air flow, the forces acting on the particle in the fluidized bed from above and below were studied, that is, the force of the particle mass from top to bottom and the force that lifts the particle from bottom to top. Computational experiments were carried out on a computer model and air flow rates were determined for crushed particles containing particles of gold (Au) and SiO2 with a size of 0.037 mm in a fluidized bed. An experimental setup for the separation of bulk materials (industrial waste) depending on the size and density is proposed. Thexperiments have been carried out for of industrial waste particles with a size of 0.037 mm and different densities. For the SiO2 component with a size of 0.037 mm, the air flow was supplied with an initial velocity of 1.065 m / s, and for gold (Au), 1.44 m / s. The experiments were carried out at two critical speeds of 1.065 m / s and 1.44 m / s, and the values of the drag coefficient were determined. The influence of the drag coefficient on the speed values is determined. The effect of turbulent or laminar air flow in the process of pneumatic separation in a fluidized bed has been studied.
№ | Muallifning F.I.Sh. | Lavozimi | Tashkilot nomi |
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1 | Yunusov B.I. | O'qituvchi | TDTU |
2 | Yusufbekov N.R. | O'qituvchi | TDTU |
№ | Havola nomi |
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1 | 1. Yunusov B.I. Development of optimal pneumatic separation process and plant for enrichment of metals from mining and metallurgical waste: Dr. Sci. - Tashkent. -158с. |
2 | 2. Matveev A.I. Technology of dry concentration of ores of small primary deposits and gold ore occurrences on the basis of modular mobile units. - D. .... doctoral candidate of technical sciences. Yakutsk. 2003г. |
3 | 3. Karabaev D.T. Optimisation of cycloning process in cotton flour production. - Dissertation ... Candidate of Technical Sciences. Tashkent.-1994. -110 c. |
4 | 4. Tavtilov I.Sh. Perfection of the pneumoseparator operation process by means of rational grain mixture feeding into the air flow.-Dissertation ... candidate of engineering sciences. Chelyabinsk.-2008. -145 c. |
5 | 5. Patent. № 2188723, 7 IN 07 IN 7/08. Pneumatic separator / Filippov V.E., Lebedev I.F., Matveev A.I., Grigoriev A.N. /Institute of Mining, Siberian Branch of RAS. Application. 11.01.01; Published 10.09.2002 //Invention. Useful Models-2002.- №25. 2.-С. 348. |
6 | 6. Pat. 93785 Russian Federation, MPK7 В 65 G 29/00. Separator / E.V. Kharlamov; applicant and patent holder Belgorod State Technological University after E.G. Shukhov. V.G. Shukhov. - Number 2009147741/22; application form. 22.12.09; Publ. 10.05.10, Coll. no. 13. |
7 | 7. Yusupbekov N.R., Nurmukhamedov H.S., Zokirov S.G. Kimoviy technology asosii jarayon v kurilmalari. -Toshkent, Qituvchi, 2003. -557 p. |
8 | 8. Vasina N.P. Improvement of the process of drying protective coatings based on shellac encapsulated forms of food additives: Cand. - Astrakhan. -154с. |
9 | 9. Yunusov B.I., Artikov A.A., Koroboev D.T. System analysis of pneumatic separation of bulk materials in a fluidized bed// Kimyovyi tekhnologii. Nazorat va boshkaruv. - Toshkent, 2011. - – №2. - – С.30-33. |
10 | 10. Yunusov B.I., Khasanov A.S., Artikov A.A., Yunusov I.I. On the issue of developing the optimal design of fluidized separator of bulk material // Scientific and Technical Production Journal "Mining Vestnik of Uzbekistan"-Navoi, 2016. -№4. –С.94-97. |
11 | 11. Yunusov B.I., Artikov A.A., Koroboev D.T. Determination of velocities of fluidized separator of bulk materials // Chemical Technology. Control and Management. - Tashkent, 2011. - – №1. - – С.54-56. |
12 | 12. Yunusov B.I., Artikov A.A., Yunusov I.I., Kasimov F.O., Software for solving problems of determining the concentration of light and heavy components in the pneumatic separation of bulk solids in a fluidized bed of periodic action (Air-separation-2), Agency on Intellectual Property of the Republic. Certificate of official registration of computer program. Guvokhnoma #DGU04040. 2016г. |
13 | 13. Yunusov B.I., Artikov A.A., Yunusov I.I., Kasimov F.O., Software for solving problems of determining the concentration of light and heavy components in pneumatic separation plants of bulk materials in a continuous fluidised bed (Air-separation-3), Agency on Intellectual Property of the Republic. Certificate of official registration of computer program. Guvokhnoma #DGU04039. 2016г. |
14 | 14. Yunusov B.I., Artikov A.A., Yunusov I.I., Kasimov F.O., Software for solving problems of synthesis of adaptive stochastic control systems of continuous technological objects (Air-separation-4), Republic Intellectual Property Agency. Certificate of official registration of computer program. Guvokhnoma № DGU04625. 2016г. |
15 | 15. Yunusov B.I., Artikov A.A., Yunusov I.I., Kasimov F.O., Software for solving problems of determining the velocity of fluidization and the rate of entrainment in fluidized bed pneumoseparation plants (Air-separation-1), Republic Intellectual Property Agency. Certificate of official registration of computer program. Guvokhnoma No. DGU04034. 2016г. |
16 | 16.Yunusov B.I., Kasymov F.A., Artikov A.A. Automated calculation of pneumatic separation process of bulk materials in fluidized bed // Chemistry and Chemical Technology, scientific and technical journal.-Tashkent, 2018.-#1-P.56-63. (02.00.00;№3) |