OPTIMIZATION OF THERMAL-ELECTRIC TRANSPORT OF THE INTERFACE IN THE Cdte/Cds – Bi₂Te₃/Sb₂Te₃ MONOLITHIC SYSTEM
DOI:
https://doi.org/10.37547/ijasr-06-01-04Keywords:
Fuzzy cottonseed, inclined mixing drum, flow modelling, inclination angleAbstract
This paper presents a theoretical analysis of the motion of fuzzy cottonseed flow in an inclined mixing drum using a system of differential equations. The dynamic behaviour of the cottonseed flow is modelled by considering the effects of normal pressure and resistance forces acting on the particles during the mixing process. Special attention is paid to the influence of frictional and resistive forces on maintaining the continuity and stability of the fuzzy cottonseed flow when seed cotton is mixed with a chemical suspension.
The study examines how the inclination angle of the mixing drum affects pressure distribution, resistance forces, and the overall flow regime of fuzzy cottonseed. The interaction between cottonseed particles and the drum surface is analysed to identify key factors governing efficient mixing and uniform coating during seed treatment operations. The obtained theoretical results provide a basis for optimizing the design and operating parameters of inclined mixing drums, contributing to improved process efficiency and reduced energy consumption.
References
1. Technological Regulation for the Preparation of Seed Cotton (UCT 97–2022).
2. eLIBRARY.RU. Available online: https://www.elibrary.ru/item.asp?edn=ysnynh
3. National Electronic Library of Russia (NEB). Available online: https://rusneb.ru/catalog/010003
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Copyright (c) 2026 Jakhongir Djumabayevich Karimov, Mansurbek Rahimovich Mo‘minov, Alisher Ashuraliyevich Akramov
This work is licensed under a Creative Commons Attribution 4.0 International License.
