Calculation of hydraulic resistance in the separator of the direct-flow control valve with a rotary lock

Капранова, А. Б.; Лебедев, А. Е.; Melzer, A.

doi:10.1051/e3sconf/202022001073

Cited by 4 publications

(1 citation statement)

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“…L. Klimontovich [32,33] and is proposed for use in this work. The energy method [32,33] has been adopted by the authors to solve some problems in chemical technologies, in particular, in models of bubble-type hydrodynamic cavitation [34][35][36], fragmentation of liquid droplets [37]. This method has been tested in modeling the processes of formation of rarefied flows of granular and/or powder materials when they are mixed in devices with a moving belt [14], devices with gravitational action [13,16,17], etc.…”

Section: Introductionmentioning

confidence: 99%

Stochastic analysis of impact mixing of bulk materials in a rotary apparatus

et al. 2021

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The purpose of this work is to analyze the distribution of bulk materials according to the characteristic parameters of the mixing process at the second stage of processing in a rotary apparatus. The design of the rotary device has a wide range, including for the needs of agriculture, for example, when forming mixtures of mineral fertilizers and multifunctional pyrethroid drugs. At this mixing stage, impact interaction with the bump surface of rarefied flows of bulk components occurs, obtained by scattering the rotating drum by elastic blades at the previous stage of the technological chain. The obtained dependencies between the characteristic angle of dispersion of bulk materials by the specified mixing drum (at the first stage) and the angle of reflection of the corresponding flows from the baffle surface (at the second stage) are used in the stochastic analysis of impact mixing. Modeling of the differential functions of the distribution of the number of particles of mixed bulk components by the angle of reflection from the baffle surface is carried out taking into account the physical and mechanical characteristics of the working materials, design parameters, and operating parameters of the rotary apparatus. The calculation results made it possible to reveal the effective ranges of variation of the characteristic parameters for the shock mixing of bulk materials in a rotary apparatus.

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