A numerical study on combined baffles quick-separation device

Abstract: The transfer of particles in laminar and turbulent flows has many applications in combustion systems, biological, environmental, nanotechnology. In the present study, a Combined Baffles Quick-Separation Device (CBQSD) is simulated numerically using the Eulerian-Lagrangian method and different turbulence models of RNG k-ε, k-ω, and RSM for 1–140 μm particles. A two-way coupling technique is employed to solve the particles’ flow. The effect of inlet flow velocity, the diameter of the splitter plane, and solid pa… Show more

“…The E-L approach has a low computational cost and is utilized for a small number of particles [4]. Many researchers employed the E-L approach to simulate the dynamic collision of particles suspended in a continuous phase, for instance, solid-gas cyclone separators [5][6][7][8][9][10][11][12][13][14].…”

An Overview of Multi-Phase Flow Numerical Methods

“…The E-L approach has a low computational cost and is utilized for a small number of particles [4]. Many researchers employed the E-L approach to simulate the dynamic collision of particles suspended in a continuous phase, for instance, solid-gas cyclone separators [5][6][7][8][9][10][11][12][13][14].…”

An Overview of Multi-Phase Flow Numerical Methods

Impact of cone wall roughness on turbulence swirling flow in a cyclone separator

Performance improvement of a cyclone separator using spiral guide vanes with variable pitch length