Mathematical Formulation and Theoretical Background of Harmful-Particle Separation in Multicyclones

Authors

  • Djurayev Sherzod Sobirjonovich Namangan State Technical University

Keywords:

Multicyclone, hazardous dust, particle mechanics, discretisation, CFD, collection efficiency, cut-size diameter.

Abstract

This paper presents an extended mathematical framework for predicting the removal of hazardous dust and aerosol particles in multicyclone separators. The governing Navier–Stokes and particle-tracking equations are discretised with a second-order finite-volume scheme and solved implicitly. Key performance indicators—cut-size diameter d50, overall collection efficiency η, and pressure drop ΔP—are derived analytically and validated numerically. Expanded results show that, at equal pressure loss, a multicyclone operating at an inlet velocity of 12 m s⁻¹ captures 95 % of particles larger than 5 μm while consuming 22 % less fan power than an equivalent single cyclone. Figures 1–2 visualise the influence of particle size and volumetric flow rate on efficiency and pressure drop.

References

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Published

2025-07-09

How to Cite

Djurayev Sherzod Sobirjonovich. (2025). Mathematical Formulation and Theoretical Background of Harmful-Particle Separation in Multicyclones. International Journal of Scientific Trends, 4(7), 13–26. Retrieved from https://scientifictrends.org/index.php/ijst/article/view/601

Issue

Vol. 4 No. 7 (2025): IJST

Section

Articles

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Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

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