TY - JOUR ID - 23885 TI - EVOLUTION OF HEAVY PARTICLE TRIANGULAR CLUSTERS IN 3-D TURBULENT FLOW JO - International Conference on Aerospace Sciences and Aviation Technology JA - ASAT LA - en SN - 2090-0678 AU - ELMaihy, A. AU - Aly, A. Abou EL-Azm AU - Nicolleau, F. AD - Egyptian Armed Forces. AD - PhD Student. Department of Mechanical Engineering, University of Sheffield, Sheffield, UK. AD - Senior Lecturer. Y1 - 2019 PY - 2019 VL - 12 IS - ASAT Conference, 29-31 May 2007 SP - 1 EP - 25 KW - Heavy particles KW - kinematic simulation KW - particle cluster KW - Two Phase Flow DO - 10.21608/asat.2019.23885 N2 - The dispersion of heavy particle triangular clusters in a homogenous, isotropic and incompressible 3-D turbulent flow have been studied using the Kinematic Simulation techniques. In this study, the evolution of the size and the shape factors of the cluster are presented at different initial separations between particles, different inertia effect (different Stokes numbers), and different values of drift velocities. For dispersion of heavy particles in turbulent flows It can be concluded that the inertia and gravity affect the size and shape of the three-particles cluster. For the effect of Reynolds number on the dispersion of heavy particle clusters, Nicolleau and ElMaihy (2006) found that all the curves for constant values of initial separations of Δ0/L1 = 0.032 and Δ0/L1 = 0.5 are approximately collapsed for factors 1/2, and <χ>]. These results can be extended to the heavy particle dispersion for Stokes numbers in the range 0.2 < St However, in the present work a limitation has been introduced for the above conclusion to initial separations above the Kolmogorov length-scale. UR - https://asat.journals.ekb.eg/article_23885.html L1 - https://asat.journals.ekb.eg/article_23885_6c8200f084175dae6d7981d8f6e73109.pdf ER -