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Abstract

The article presents the results of an experimental study on chalk granulation in the turbulized layer of a turboblade granulator. The design of the apparatus combines the following sequential processes: grinding, granulating and compacting newly formed granules. In addition, this device has the ability to carry out both rotational and reciprocating motion. It has been established that preliminary grinding of the feedstock increases the efficiency of the granulation process and improves the quality of the finished product. In the experiments, four substances were used to create 2 astringent suspensions and the optimal combination and their ratios were determined. The experiments were carried out with rotation of the working shaft n = 800-2400 rpm with round and pointed rods. In this case, the resulting granules have a spherical shape and a smooth surface.

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References

  1. Perov, V.A., Andreev, E.E., Bilenko, L.F. (1990). Droblenie, izmel'chenie i grokhochenie poleznykh iskopaemykh [Crushing, grinding and screening of minerals]. M.: Nedra, 300 p. (in Russian).
  2. Yusupbekov, N.R., Nurmuhamedov, H.S., Zokirov, S.G. (2015). Kimyoviy texnologiya asosiy jarayon va qurilmalari. Toshkent: Fan va texnologiyalar, 848 p.
  3. Ajnshtejna, V.G. (2000). Obshhij kurs protsessov i apparatov khimicheskoj tekhnologii [General course of processes and apparatus of chemical technology]. M.: KHimiya, 1784 p. (in Russian).
  4. Brokkhan-Lyudeman, SH., Roggenland, M. (2018). Izmel'chitel'nyj apparat [Grinding apparatus]. Patent Rossii №2497346. MPK8 A23A 3/00. 17 p. (in Russian).
  5. Valeev, R.R., Valeev, I.R., Tsenev, N.I., Mitrofanov, O.A., Tsenev, A.N. Ustrojstvo dlya izmel'cheniya produktov [Device for grinding products]. Patent Rossii №2313397. MPK 7 V02S 18/30. 9 p. (in Russian).
  6. Trufanov, I.I., Opryshko, I.M., Lyapin, V.M. (2015). Udarno-tsentrobezhnyj izmel'chitel' [Impact centrifugal shredder]. Patent Rossii №2350388. MPK7 V02S 7/02. 5 p. (in Russian).
  7. Vorob'eva, E., Krut'ko, N. (2013). Innovatsionnye tekhnologii pererabotki otkhodov kalijnoj promyshlennosti [Innovative technologies for processing waste from the potash industry]. Nauka i innovatsii. 6, 38-40. (in Russian).
  8. Skorovodnikov, P.V, Cherepanova, M.V. (2017). Sposoby granulirovaniya organo-mineral'nykh udobrenij [Methods for granulating organic-mineral fertilizers]. Vestnik PNIPU «KHimicheskaya tekhnologiya i biotekhnologiya». 3. 117-127. (in Russian).
  9. Vysotskaya, N.A., Frantskevich, V.S. (2020). Osobennosti polucheniya NPK-udobrenij metodom okatyvaniya [Features of producing NPK fertilizers using the rolling method]. Gornaya mekhanika i mashinostroenie. 4. 79-85. (in Russian).
  10. Cherednichenko, D.V., Vorob'eva, E.V., Krut"ko, N.P., Basalyga, I.I., Matrunchik, YU.V. (2007). Vliyanie svyazuyushhikh reagentov razlichnoj prirody na prochnost' granul khlorida kaliya [The influence of binding reagents of various natures on the strength of potassium chloride granules]. ZHurn. prikl. KHimii, 80(9). 1416-1420. (in Russian).
  11. Teptereva, G.A., Pakhomov, S.I., Chetvertneva, I.A. (2021). Vozobnovlyaemye prirodnye syr'evye resursy, stroenie, svojstva, erspektivy primeneniya [Renewable natural raw materials, structure, properties, application prospects]. Izv. Vuzov "KHimiya i khimicheskaya tekhnologiya». 64(9). 5-122. (in Russian).
  12. Yakovleva, A.A., Yakusheva, N.I. (2020). Issledovanie protsessa granulirovaniya struvita metodom okatyvaniya [Study of the struvite granulation process using the pelletizing method]. Vestnik PNIPU «KHimicheskaya tekhnologiya i biotekhnologiya». 2. 208-220. (in Russian).
  13. Ovsyannikova, A.V., Starostin, A.G., Fedotova, O.A. (2020). Issledovanie protsessa granulirovaniya glazerita metodom okatyvaniya [Study of the process of glaserite granulation using the pelletizing method]. Vestnik PNIPU. «KHim. tekhnologiya i biotekhnologiya». 2. 198-207. (in Russian).
  14. Bersenev, I.S., Bersenev, E.S., Kolyasnikov, A.YU. (2018). Perspektivy utilizatsii tverdykh mineral'nykh otkhodov v proizvodstve mineral'nykh udobrenij [Prospects for recycling solid mineral waste in the production of mineral fertilizers]. Nauka i pr-vo Urala. 14. 2-3. (in Russian).
  15. Fram, E.H. (2017). Lignosul'fonat v proizvodstve granul [Lignosulfonate in granule production]. ZHivotnovodstvo Rossii. 2. 60-61. (in Russian).
  16. Zakhidullina, S.KH., Dolganova, V.L. (2012). Granulirovanie otkhodov i trudno ispol'zuemykh produktov kalijnykh predpriyatij [Granulation of waste and hard-to-use products from potash plants]. Vestn. PNIPU «KHim. tekhnologiya i biotekhnologiya». 13. 77-84. (in Russian).
  17. Saburov, KH.M., Palvuaniyazova, D.A., Mukhamedgaliev, B.A. (2020). Primenenie kompozitsionnykh materialov na osnove otkhodov dlya zakrepleniya peskov Priaral'ya [The use of composite materials based on waste to consolidate the sands of the Aral Sea region]. KHim. promyshlennost'. 97(2). 82-87. (in Russian).
  18. Annaev, N.A., Askarova, A.B., Abdullaev, A.SH., Khajridinov, KH.A., Nurmukhamedov, KH.S. (2010). Granulyator dlya sypuchikh materialov [Granulator for bulk materials]. Patent RUz №04222, MKI8 V01J 2/16. 14 p. (in Russian).
  19. Klassen, P.V., Grishaev, I.G., Shomin, I.P. (1991). Granulirovanie [Granulation]. M.: KHimiya, 240 p. (in Russian).
  20. Generalov, M.B., Klassen, P.V., Stepanova, A.R., Shomin, P.V. (1984). Raschet oborudovaniya dlya granulirovaniya mineral'nykh udobrenij [Calculation of equipment for granulating mineral fertilizers]. M.: Mashinostroenie. 192 p. (in Russian).
  21. Grigor'ev, V.A., Zorin, M.V. (1988). Teoreticheskie osnovy teplotekhniki. Teplotekhnicheskij ehksperiment [Theoretical foundations of heat engineering. Thermotechnical experiment]. M.: EHnergoatomizdat. 560 p. (in Russian).

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