Distribution of the Mixed Bulk Components After Impact on the Baffle Plane

Kapranova, A. B.; Stenko, D. V.; Lozovoy, N. M.

doi:10.1007/978-3-030-81289-8_2

Part of the book series: Lecture Notes in Civil Engineering ((LNCE,volume 173))

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Abstract

To obtain a high-quality mixture of granular media for various purposes, it is required to establish the appropriate rational limits for changing the parameters of this technological process. In the case of mixing bulk materials in a rotary way, the authors previously identified the following most significant parameters: the angular speed of rotation of the mixing drum with elastic non-radial blades and the rate of their deformation. The purpose of this work is to study the influence of the main operating and design parameters during the formation of scattered flares of bulk components during the operation of the specified mixing drum (stage 1) on their distribution in reflected flares after hitting the baffle plane (stage 2). A reflection of the application of the energy method is the obtained relationship between the distribution laws of granular media at the listed stages 1 and 2. In particular, the results showed that an increase in the angular speed of rotation of the mixing drum by a factor of 1.27 leads to a (1.11–1.25) -fold decrease in the values of the differential distribution function of granular components for the first extremum of the angle of reflection from the bump plane. The specified limit is characteristic for each row of elastic blades fixed on the surface of the mixing drum with a fixed angle of displacement.

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References

Wen Y, Liu M, Liu B, Shao Y (2015) Comparative study on the characterization method of particle mixing index using DEM method. Procedia Eng 102:1630–1642
Google Scholar
Dyomin OV, Pershin VF, Smolin D (2012) Preparation of mixture of free-flowing materials in double-shaft paddle mixers. Chem Petrol Eng 48(3–4):213–216
Article Google Scholar
Mansour W, Melekhin D, Pasko A (2020) Continuous production of multicomponent powder mixtures. MATEC Web Conf 315(1):04003
Article Google Scholar
Yazdani E, Hashemabadi SH (2019) The influence of cohesiveness on particulate bed segregation and mixing in rotating drum using DEM Phys A Stat Mech Appl 525
Google Scholar
Lozovaya S, Lozovoy N, Uvarov V (2019) Computer simulating of strength characteristics for deformable chambers and most loaded mixer elements with a vertical shaft. IOP Conf Ser: Mater Sci Eng 560:1–6
Google Scholar
Kafarov VV, Dorokhov IN, Arutyunov SY (1985) Sistemnyy analiz khimicheskikh protsessov tekhnolo-gii. Protsessy izmel’cheniya i smeshivaniya sypuchikh materialov. Moscow, Nauka
Google Scholar
Bogomolov B, Boldyrev V, Zubarev A, Meshalkin V, Men’shikov V (2019) Intelligent logical information algorithm for choosing energy- and resource-efficient chemical technologies. Theor Found Chem Eng 53(5):709–718
Google Scholar
Kapranova AB, Bakin MN, Verloka II (2018) Simulation of the quality criterion of a mixture in a drum-belt apparatus. Chem Petrol Eng 54(5–6):287–297
Article Google Scholar
Kapranova AB, Verloka II (2018) Stochastic description of the formation of flows of particulate components in apparatuses with brush elements. Theor Found Chem Eng 52(6):1004–1018
Article Google Scholar
Verloka I, Kapranova A, Tarshis M, Cherpitsky S (2018) Stochastic modeling of bulk components batch mixing process in gravity apparatus. Int J Mech Eng Technol 9(2):438–444
Google Scholar
Kapranova AB, Verloka II, Bahaeva DD, Tarshis MYu, Cherpitsky SN (2020) To the calculation of the average value of the volume fraction of the key bulk component at the intermediate stage of mixing with an inclined bump. Front Energy Res Process Energy Syst 8(135):1–11
Google Scholar

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Acknowledgements

This work was realized in the framework of the Program of flagship university development on the base of the Belgorod State Technological University named after V G Shukhov. The work was realized using equipment of High Technology Center at BSTU named after V. G. Shukhov.

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Authors and Affiliations

Yaroslavl State Technical University, Yaroslavl, Russia
A. B. Kapranova & D. V. Stenko
Belgorod State Technological University Named After V.G. Shukhov, Belgorod, Russia
N. M. Lozovoy

Authors

A. B. Kapranova
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D. V. Stenko
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N. M. Lozovoy
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Belgorod State Technological University, Belgorod, Russia
Sergey Vasil'yevich Klyuev

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Kapranova, A.B., Stenko, D.V., Lozovoy, N.M. (2022). Distribution of the Mixed Bulk Components After Impact on the Baffle Plane. In: Klyuev, S.V. (eds) Digital Technologies in Construction Engineering. Lecture Notes in Civil Engineering, vol 173. Springer, Cham. https://doi.org/10.1007/978-3-030-81289-8_2

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DOI: https://doi.org/10.1007/978-3-030-81289-8_2
Published: 01 December 2021
Publisher Name: Springer, Cham
Print ISBN: 978-3-030-81288-1
Online ISBN: 978-3-030-81289-8
eBook Packages: EngineeringEngineering (R0)

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