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ISSN オンライン: 2642-0554

A GENERAL PARTICLE DISPERSION MODEL FOR LAGRANGIAN TRAJECTORY SIMULATION OF TWO-PHASE FLOWS IN CURVILINEAR COORDINATES

X.-Q. Chen
Department of Mechanical Engineering University of Waterloo Ontario Canada N2L 3G1

Jose C. F. Pereira
Mechanical Engineering Department Instituto Superior Tecnico Av. Rovisco Pais, 1049-001 Lisboa Portugal

要約

An efficient particle dispersion model (SPEED) was described for predicting dilute turbulent two-phase flows in non-orthogonal grids. The continuous-phase flow field was modeled using the Reynolds-stress transport model whereas the particular flow field was modeled using the Lagrangian trajectory model. The two phases are linked with each other via two-way coupling sources. A robust numerical algorithm was developed to determine the spatial distribution of physical particles in irregular Eulerian control volumes. The SPEED model requires tracking a small number of particle trajectories to achieve a stochastically significant solution. The present paper has focussed on how to implement the SPEED model in body-fitted coordinates. To validate the model, some demonstrative results are presented and compared with the experimental measurements for a particle-laden turbulent gas flow.