KAOLIN RUDALARINI BOYITISHNING SAMARALI USULLARINI ILMIY ASOSDA TADQIQ ETISH
DOI:
https://doi.org/10.5281/zenodo.19657847Ключевые слова:
kaolin, boyitish, gravitatsion usul, flotatsiya, konsentratsion stol, glinozyom, zarracha yirikligiАннотация
Ushbu maqolada Angren konidan olingan kaolin rudalarini boyitishning samarali usullarini ilmiy asosda
o‘rganish natijalari keltirilgan. Tadqiqot doirasida kaolin rudalarini gravitatsion va flotatsion usullar yordamida boyitish
imkoniyatlari tahlil qilindi. Gravitatsion boyitish jarayoni konsentratsion stolda amalga oshirilib, zarrachalarning zichligi
va gidrodinamik xossalariga asoslangan holda ajratish samaradorligi baholandi. Flotatsion boyitish tajribalarida esa
reagent rejimining o‘zgarishi, zarracha o‘lchami va shlamlarning ta’siri o‘rganildi. Olingan natijalar shuni ko‘rsatdiki,
kaolin rudasining mayda dispersli tarkibi flotatsiya jarayonining samaradorligini cheklaydi, natijada glinozyomning
ajralish darajasi nisbatan past bo‘lib qoladi. Konsentratsion stolda boyitish esa ayniqsa mayda sinflar uchun yuqori
samaradorlikni namoyon etdi. Tadqiqot natijalari asosida kaolin rudalarini qayta ishlashda optimal texnologik yondashuv
sifatida gravitatsion boyitish usulini qo‘llash maqsadga muvofiq ekanligi asoslab berildi.
Библиографические ссылки
Abdurahmonov, A. A., & Tursunov, X. T. (2010). Foydali qazilmalarni boyitish asoslari. Toshkent: Fan.
Axmedov, O. S., & Karimov, B. R. (2018). Konchilik va rudalarni qayta ishlash texnologiyasi. Toshkent: O‘qituvchi.
Abdisamievich, S. A., Mamarasulovich, R. U., & Azamatugli, K. O. (2025). DEVELOPMENT OF TECHNOLOGY FOR
OBTAINING ALUMINA FROM LOCAL RAW MATERIALS. Sanoatda raqamli texnologiyalar/Цифровые технологии в
промышленности, 3(2), 105-111.
Bulatovic, S. M. (2007). Handbook of flotation reagents. Elsevier.
Ruziev U. M., Boymurodov N. A. MEXANIK FAOLLASHTIRISHNING GLINOZYOM AJRATIB OLISHGA TA’SIRI. –
Deer, W. A., Howie, R. A., & Zussman, J. (1992). An introduction to the rock-forming minerals. Longman.
Fuerstenau, D. W., Jameson, G. J., & Yoon, R. H. (2007). Froth flotation: A century of innovation. Society for Mining,
Metallurgy, and Exploration (SME).
Gaudin, A. M. (1939). Principles of mineral dressing. McGraw-Hill.
Gupta, A., & Yan, D. S. (2006). Mineral processing design and operation. Elsevier.
Murray, H. H. (2007). Applied clay mineralogy: Occurrences, processing and application of kaolins, bentonites,
palygorskite-sepiolite, and common clays. Elsevier.
O‘G‘Li, T. S. S., Mamarasulovich, R. Z. U. B., & O‘G‘Li, E. U. X. (2024). KALSIY TARKIBLI QO ‘SHIMCHALAR
TARKIBIDAGI ALYUMOGETIT VA BOKSITDAN GLINOZEMNI AJRATIB OLISH. Строительство и образование, 3,
-210.
Pryor, E. J. (1965). Mineral processing. Elsevier.
Rao, S. R. (2004). Surface chemistry of froth flotation. Springer.
Ryan, W., & Radford, C. (1987). Whiteware clays: Their processing, properties and uses. Pergamon Press.
Vaisberg, L. A., & Lapshin, V. A. (2002). Gravitational methods of mineral processing. Mining Institute Press.
Grinev, V. G. (1986). Flotation methods of ore beneficiation. Nedra.
Laskorin, B. N., Kuznetsov, V. D., & Smirnov, N. N. (1975). Beneficiation of mineral resources. Nedra.
Wills, B. A., & Finch, J. (2016). Wills’ mineral processing technology (8th ed.). Butterworth-Heinemann.
Загрузки
Опубликован
Выпуск
Раздел
Лицензия
Copyright (c) 2026 MUHANDISLIK VA IQTISODIYOT
Это произведение доступно по лицензии Creative Commons «Attribution» («Атрибуция») 4.0 Всемирная.