The behavior of dispersed particles in a turbulent round jet is experimentally investigated. The role of particle-to-fluid density ratio rho(p)/rho(f) is analyzed by inspecting particle velocity fields and preferential concentration at four different ratios, from 0.7 to 19.3. The jet near-field region, i.e., up to X/D = 11, is analyzed and compared to the unladen case. Particle-to-fluid density ratio is reported to have a strong impact on particle velocity field structure, in terms of jet transition and self-similar region as well as on turbulent fluctuations. Concentrations of particles show that increasing particle density corresponds to larger departure from uniformity. This occurrence is limited to the region X / D < 5, where also the largest differences of average and fluctuating velocities with respect to the unladen case are measured.
Role of density ratio on particle dispersion in a turbulent jet / Capone, A.; Moscato, G.; Romano, G. P.. - In: PHYSICS OF FLUIDS. - ISSN 1527-2435. - 35:1(2023). [10.1063/5.0133182]
Role of density ratio on particle dispersion in a turbulent jet
Moscato G.;Romano G. P.
2023
Abstract
The behavior of dispersed particles in a turbulent round jet is experimentally investigated. The role of particle-to-fluid density ratio rho(p)/rho(f) is analyzed by inspecting particle velocity fields and preferential concentration at four different ratios, from 0.7 to 19.3. The jet near-field region, i.e., up to X/D = 11, is analyzed and compared to the unladen case. Particle-to-fluid density ratio is reported to have a strong impact on particle velocity field structure, in terms of jet transition and self-similar region as well as on turbulent fluctuations. Concentrations of particles show that increasing particle density corresponds to larger departure from uniformity. This occurrence is limited to the region X / D < 5, where also the largest differences of average and fluctuating velocities with respect to the unladen case are measured.| File | Dimensione | Formato | |
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