Vortex Simulation of Low Reynolds Number Gas Jet Laden with Solid Particles(Fluids Engineering)

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  • 固体粒子が付加された低Reynolds数気相噴流の渦法解析(流体工学,流体機械)
  • 固体粒子が付加された低Reynolds数気相噴流の渦法解析
  • コタイ リュウシ ガ フカ サレタ テイReynoldsスウ キソウ フンリュウ ノ ウズホウ カイセキ

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An air jet, which remains laminar and axisymmetric in the single-phase flow condition, is simulated numerically in the particle-laden condition. The vortex method for particle-laden gas jet proposed by the authors is employed for the simulation. An air issues with velocity U_o from a round nozzle into the air co-flowing with velocity U_a. The Reynolds number based on U_o and the nozzle diameter is 1333, the velocity ratio U_a/U_o is 0.4. Spherical glass particles with diameter 65μm are loaded at the mass loading ratio 0.025. The particle velocity at the nozzle exit is 0.68U_o. The particles impose disturbances on the air and induce the three-dimensional flow, resulting in the transition from the axisymmetric flow to the non-axisymmetric one. As the particles make the air velocity fluctuation increase, the air momentum diffuses more in the radial direction, and accordingly the spread of the jet becomes larger. The abovementioned results agree well with the trend of the existing experiments. The proposed vortex method can successfully capture the flow transition caused by the particles laden on an axisymmetric air jet.

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