4.5 Article

CFD simulation of turbulent fluid flow and dust dispersion in the 1 m3 explosion vessel equipped with the rebound nozzle

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ELSEVIER SCI LTD
DOI: 10.1016/j.jlp.2022.104755

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CFD simulation; Dust dispersion; Rebound nozzle; Perforated annular nozzle; 1m(3) vessel

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This study conducted experimental research on dust dispersion and found that the type of nozzle affects the initial turbulence level and dust concentration, but the size of the vessel has a greater impact on the initial turbulence level and turbulent combustion regime.
Against dust explosions, all the flammability and explosibility parameters must be evaluated following standard procedures using the 20 L and/or the 1 m(3) vessel. Previous results comparing the dust dispersion in the 20 L sphere equipped with rebound or perforated annular nozzle showed that the initial turbulence level, the dust concentration, and the feeding are affected by the type of nozzle used. In this work, a similar investigation was performed on the 1 m(3) vessel, simulating the fluid flow evolution which is obtained with the rebound nozzle. Results showed that the 1 m3 vessel equipped with rebound nozzle presents a less uniform degree of turbulence and a higher amount of dust fed, compared to the case of perforated annular nozzle. However, the greatest effect on the initial level of turbulence and turbulent combustion regime is determined by the size of the vessel and not by the type of nozzle used.

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