RENIYNING SORBSIYASI: TADQIQOTLAR, USULLAR VA ILMIY YONDASHUVLAR
Article Sidebar
Main Article Content
Аннотация:
Ushbu maqolada reniyning (Re) sorbsiyasi jarayoni va uning samarali usullari ko‘rib chiqiladi. Reniyning perrenat ionlari (ReO₄⁻) sanoat chiqindilarida va atrof-muhitda uchrashi ekologik xavf tug‘dirishi sababli, uni samarali ajratib olish muhim masalalardan biridir. Maqolada turli sorbent turlari, jumladan, aktiv uglerod, ion almashinuvchi sorbentlari, seolitlar va biomassa asosidagi materiallar tahlil qilinadi. Sorbsiyalash jarayonining asosiy mexanizmlari, jumladan elektrostatik kuchlar, ion almashinuvi va Van der Vaals ta’sirlari haqida ma’lumot beriladi. Shuningdek, zamonaviy nanomateriallar va modifikatsiyalangan polimerlar yordamida reniyni ajratib olish texnologiyalari muhokama qilinadi. Ushbu sharh maqola reniyning ekologik xavfini kamaytirish va uni samarali tozalash usullarini rivojlantirishga qaratilgan tadqiqotlar uchun muhim ma’lumot manbai bo‘lib xizmat qiladi.
Article Details
Как цитировать:
Библиографические ссылки:
Raha, S., & Ghosh, A. (2017). "Removal of perrhenate from aqueous solutions by adsorption on activated carbon." Journal of Environmental Chemical Engineering, 5(1), 1040-1047.
Benoit, J., & Schubert, T. (2015). "Perrhenate removal from aqueous solutions using zeolites: An effective sorption approach." Environmental Science & Technology, 49(22), 13556-13564.
Kim, H., & Lee, S. (2019). "Perrhenate adsorption on ion-exchange resins: A comparative study of selectivity and efficiency." Journal of Hazardous Materials, 380, 120848.
Li, Z., & Liu, Q. (2020). "Adsorption of perrhenate from aqueous solutions using modified carbon-based adsorbents." Chemical Engineering Journal, 382, 122974.
Patil, N., & Jadhav, S. (2021). "Effect of temperature and pH on perrhenate adsorption by modified biosorbents." Journal of Environmental Sciences, 95, 15-22.
Sasaki, K., & Tanaka, N. (2018). "Sorption of rhenium and perrhenate onto ion-exchange resins: A kinetic study." Separation Science and Technology, 53(16), 2633-2643.
Huang, S., & Xie, W. (2022). "Recent advances in the use of sorbents for rhenium and perrhenate removal from aqueous solutions." Environmental Pollution, 282, 117015.
Chung, J., & Lee, M. (2016). "Removal of rhenium from aqueous solutions by adsorptive materials: A review." Journal of Environmental Management, 182, 340-350.
Азизова Холида Мумин Кизи, Каттаев Нуритдин Тураевич, Бабаев Туйгун Мирзаахмедович СИНТЕЗ И ИССЛЕДОВАНИЕ ФИЗИКО-ХИМИЧЕСКИХ СВОЙСТВ НОВОГО ГРАНУЛИРОВАННОГО СОРБЕНТА НА ОСНОВЕ АКРИЛОНИТРИЛА // Universum: химия и биология. 2021. №12-1 (90).
Азизова Х. М., Каттаев Н. Т., Бабаев Т. М. Синтез и структурная морфология сшитого сополимера акрилонитрила с гексагидро-1, 3, 5-триакрилилтриазином //Композиционные материалы. – 2021. – №. 2. – С. 72-76.
D. Kasun, M. Rifky, D. Hunupolagama, J.M Harris, K. Zokirov, K. Azizova, S. Ermat, M. Samadiy, Inorganic additives in meat production and processing, E3S Web of Conferences, 510, 01028 (2024)
N. Kattaev, B. Tuygun, D. Adinaeva, M. Jumaev, K. Azizova, A new granulated sorbent based on acrylonitrile: Synthesis and physico-chemical properties, BIO Web Conferences, 95, 01043 (2024)
Азизова Холида Мумин Кизи, Катаев Нуритдин Тураевич, Бабаев Туйгун Мирзаахмедович ИССЛЕДОВАНИЕ ВЗАИМОДЕЙСТВИЯ ИОНОВ МЕДИ (II) С НОВЫМ КОМПЛЕКСООБРАЗУЮЩИМ АНИОНИТОМ // Universum: химия и биология. 2021. №12-1 (90).
N. Fayzullaev, K. Rahmatov, B. Makhkamov, Z. Mukhamedbayeva, R. Eshmuratova, J. Asamov, K. Azizova, M. Rifky, Obtaining aromatic carbohydrates by catalytic aromatization of hexane with a linear structure, E3S Web of Conferences, 524, 03005 (2024)
Mirkhamitova Dilorom Khudaiberdievna, Azizova Kholida Mumin qizi, & Jadilova Dilnavoz Abulazizovna. (2023). Granular copolymer synthesis of acrylonitrile and hexahydro 1.3.5-triacryliltriazine and its physicochemical properties. American Journal of Engineering , Mechanics and Architecture (2993-2637), 1(8), 44–47. Retrieved from https://grnjournal.us/index.php/AJEMA/article/view/968
D.Kh. Mirkhamitova, Azizova Kh.M., D.A. Jadilova. (2023). SYNTHESIS OF CROSS-LINKED ACRYLONITRILE COPOLYMER WITH HEXAHYDRO-1,3,5-TRIACRYLYLTRIAZINE BY SUSPENSION COPOLYMERIZATION. International Multidisciplinary Journal for Research & Development, 10(09), 171–174. Retrieved from https://www.ijmrd.in/index.php/imjrd/article/view/91
Азизова Х. М., Бабаев Т. М., & Каттаев Н. Т. (2023). SYNTHESIS OF CROSS-LINKED COPOLYMER OF ACRYLONITRILE WITH HEXAHYDRO-1,3,5-TRIACRYLYL TRIAZINE BY SUSPENSION COPOLYMERIZATION. Intent Research Scientific Journal, 2(5), 6–11. Retrieved from https://intentresearch.org/index.php/irsj/article/view/91