Seyed Masoud Vahedi - M.S.Student, Department of Mechanical Engineering, Semnan University, Semnan, Iran
Farzad Parvaz - PhD Candidate, Department of Mechanical Engineering, Behbahan Branch, Islamic Azad University, Khuzestan, Iran
Mohammad Kamali - M.S.Student, Department of Mechanical Engineering, Najafabad Branch, Islamic Azad University, Isfahan, Iran
Hasti Jafari Jebeli - M.S.Student, Department of Mechanical Engineering, Semnan University, Semnan, Iran

The effect of adding extra inlet channels on the operation of the Stairmand Cyclone has been investigated numerically. The Reynolds stress model (RSM) and Eulerian-Lagrangian method were used to investigate the complex turbulent flow and cyclone performance. The impacts of one-way coupling and two-way coupling models on the cyclone efficiency and the calculation of cut-off size diameter were examined. The results showed that a rise in channel number increases the tangential velocity and extends the Rankine vortex region. Moreover, in the four-inlet cyclone, the direction of flow changes unlike the one-inlet and two-inlet cyclones, and it behaves like a jet flow. According to the results, the collection efficiency and cut-off size diameter of the four-inlet cyclone are respectively about 10.78% higher and 35% lower than those of one-inlet configuration. Therefore, the performance of four-inlet cyclone is the highest among the three investigated configurations due to high tangential and axial velocities. A cyclone with more inlets has a more symmetrical flow pattern. Consequently, the four-inlet cyclone has the lowest flux of erosion among the others. The results of cyclone performance reveal a slight difference between one-way coupling and two-way coupling models.

Number of Inlet Channels, Reynolds Stress Model (RSM), Two-way Coupling Model, Eulerian-Lagrangian Method, Erosion Modeling