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Home / Journals / From Chemistry Towards Technology Step-By-Step / Volume 4 Issue 2 / Application of the adsorption process for geothermal water processing
Application of the adsorption process for geothermal water processing
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APPLICATION OF THE ADSORPTION PROCESS FOR GEOTHERMAL WATER PROCESSING
UDK 66.067.8.081.3 Адсорбционная очистка
Leontiev Valery 1
Korableva Olga 2
Girba Evgeny 3
Makarcev Dmitriy 4
Authors:
1.  Yaroslavl State Technical University (Associate Professor)

Yaroslavl, Yaroslavl, Russian Federation
2.  Yaroslavl State Technical University (Associate Professor)

Yaroslavl, Yaroslavl, Russian Federation
3.  Yaroslavl State Technical University (Associate Professor)

Yaroslavl, Yaroslavl, Russian Federation
4.  OOO “Glavnaya regionalnaya energeticheskaya sistema”

Yaroslavl, Yaroslavl, Russian Federation
Type:
Article
DOI:
https://doi.org/10.52957/2782-1900-2024-4-2-90-96
Pages:
from 90 to 96
Status:
Published
Received:
03.05.2023
Accepted:
15.06.2023
Published:
23.06.2023
Subject area:
UDK 66.067.8.081.3 Адсорбционная очистка
Language:
English
Keywords:
geothermal waters, lithium, adsorption, adsorbent, adsorption isotherm, volumetric mass transfer coefficient, initial layer cross-section saturation time, adsorbent layer height, adsorption time
Abstract and keywords
Abstract (English):
The article considers methods of lithium extraction from geothermal water. The authors present a technological scheme for obtaining lithium products from highly mineralized brines and calculate the quantities of the products obtained. The authors have developed a new design of an adsorber for the absorption of lithium ions by aluminium hydroxide. Also we have calculated the necessary flow rate of geothermal water passing through the adsorber.

Keywords:
geothermal waters, lithium, adsorption, adsorbent, adsorption isotherm, volumetric mass transfer coefficient, initial layer cross-section saturation time, adsorbent layer height, adsorption time
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References

1. Kogan, B.I. (1976) Rare Metals. State and prospects. M.: Izd-vo «Nauka» (in Russian).

2. Leontiev, V.K., Korableva, O.N. & Burtseva, V.M. (2015) Technological processes for obtaining various products from geothermal water, Sbornik trudov mezhdunarodnoj nauchnoj konferencii Polifunkcionalnye ximicheskie materialy i texnologii. Tomsk: Izd-vo NITGU. P. 75-78 (in Russian).

3. Mengeres, L.T., Ryabtsev, A.D. & Mamylova, E.V. (2004) Selective sorbent for lithium from chloride highly mineralized, Izvestiya Tomskogo politexnicheskogo universiteta, 307(7), pp. 76-79 (in Russian).

4. Leontiev, V.K., Korableva, O.N. & Girba, E.A. (2022) Application of evaporation in geothermal water processing, From Chemistry Towards Technology Step-By-Step, 3(3), pp. 65-69. DOI:https://doi.org/10.52957/27821900_2022_03_65 [online]. Available at: http://chemintech.ru›index.php/tor/2022tom3no3 (accessed 15.05.2023) (in Russian).

5. Leontiev, V.K. & Korableva, O.N. (2020) Intensification of the evaporation process, Vestnik TGTU, 26(1), pp. 85-90. DOI:https://doi.org/10.17277/vestnik.2020.01. pp.085-090 (in Russian).

6. Leont’ev, V.K., Korableva, O.N. & Soboleva, L.M. (2019) Crystallizing Evaporator. Chemical and Petroleum Engineering, Chem. Petrol. Eng., 54(9-10), pp. 708-710 [online]. Available at: https://doi.org/10.1007/s10556-019-00537-511(accessed 15.05.2023).

7. Leontiev, V.K., Girba, E.A., Korableva, O.N., Soboleva, L.M. & Osipova M.M. (2017) Adsorber. RU 169692.

8. Pavlov, K.F., Romankov, P.G. & Noskov, A.A. (2005) Cases and Tasks on the Course of Processes and Apparatuses of Chemical Technology. M.: OOO TID «Al`yans» (in Russian).

9. Planovsky, A.N., Ramm, V.M. & Kagan S.Z. Processes and Apparatuses of Chemical Technology. M.: Izd-vo «Khimiya» (in Russian).

10. Gelperin, N.I. (1981) Basic processes and apparatus of chemical technology. Moskva: Izd-vo «Khimiya» (in Russian).

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