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Title Experimental Studies and Condition Monitoring of Auxiliary Processes in the Production of Al2O3 by Sol–Gel Technology
Authors Sklabinskyi, Vsevolod Ivanovych  
Liaposhchenko, Oleksandr Oleksandrovych  
Piteľ, J.
Pavlenko, Ivan Volodymyrovych  
Skydanenko, Maksym Serhiiovych  
Ostroha, Ruslan Oleksiiovych  
Yukhymenko, Mykola Petrovych  
Simeiko, K.
Demianenko, M.
Volf, M.
Starynskyi, O.
Yurchenko, Oleksandr Yuriiovych
Мандрика, О.
ORCID http://orcid.org/0000-0001-9388-5861
http://orcid.org/0000-0002-6657-7051
http://orcid.org/0000-0002-6136-1040
http://orcid.org/0000-0002-0277-1867
http://orcid.org/0000-0003-0045-3416
http://orcid.org/0000-0002-1405-1269
Keywords condition monitoring
sol–gel
granules formation
coil pulsation washer
microsphere
process innovation
energy efficiency
Type Article
Date of Issue 2022
URI https://essuir.sumdu.edu.ua/handle/123456789/90195
Publisher MDPI
License Creative Commons Attribution 4.0 International License
Citation Sklabinskyi, V.; Liaposhchenko, O.; Piteľ, J.; Pavlenko, I.; Skydanenko, M.; Ostroha, R.; Yukhymenko, M.; Simeiko, K.; Demianenko, M.; Volf, M.; Starynskyi, O.; Yurchenko, O.; Mandryka, O. Experimental Studies and Condition Monitoring of Auxiliary Processes in the Production of Al2O3 by Sol–Gel Technology. Processes 2022, 10, 2090. https://doi.org/10.3390/pr10102090
Abstract Powders and granules of heavy metal oxides produced through condition monitoring are in high demand as intermediate products for obtaining fine-grained ceramics for a wide range of applications, i.e., nuclear fuel and fuel elements for nuclear power plants. Sol–gel technology to produce nuclear fuel (UO2), as well as catalysts (ThO2) for organic synthesis in the form of granules from pressed microspheres, is a promising method to obtain powders and granules of heavy metal oxides (fine-graded ceramics). Al2O3 was selected as the model analog at the stages of obtaining a solution of heavy metal and sol, the formation and gelation of droplets, and the preparation of gel spheres and their further washing and drying, as well as recovery and firing of particles. In the study, the main parameters were substantiated, e.g., the diameter and angle of inclination of the axis for the holes in the perforated shell, the multiplicity of sol circulation before the holes, the coefficients of liquid (sol) flow rate, the oscillation frequency of the disperser, and the concentration of surfactant and acid in sol. All of these parameters affect the characteristics of the granules that are obtained by sol–gel technology. Moreover, recommendations to increase productivity and the energy efficiency of production were also given. In particular, it was found that oscillation frequency in a range of 70–80 Hz leads to a granulometric composition of the obtained granules of 2.0–2.2 mm. A hole of 0.85 mm and a frequency of 100 Hz slightly change this range to 1.2–2.0 mm, while maintaining monodispersity.
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