关键词: 杆状内构件, 旋风分离器, 湍流模型, 气固两相流模型, 切向速度, 涡量分析, 压力降, 分离效率

Abstract:

Reynolds stress model(RSM) and discrete phase model(DPM) are used to simulate and analyze the gas-solid two-phase flow in the Stairmand cyclone separator with rod-shaped internals, and the effects of different rod positions on the characteristics of swirling flow field, vortex structure and separation efficiency are investigated. The calculation results show that the tangential velocity increases first and then decreases as the rod is away from the geometric center when the rod is placed in the non-axial center position inside the cyclone. The tangential velocity decreases more when the rod is placed in the outer swirl region. Therefore, the drag reduction effect can be achieved when the rod is placed in the non-axial center position. As the rod is away from the geometric center, the drag reduction amplitude first increases and then decreases. When the rod is located in the outer swirl, the drag reduction is the largest, up to 38.3%. With the rod away from the geometric center, Stk₅₀ increases first and then decreases, and its separation performance decreases first and then increases. When the rod is placed in the axial center position, the separation performance is the highest, and the pressure drop is also the highest. The change of the rod position can affect the flow field distribution of the cyclone, thus affecting its performance. The appropriate position of the rod can be selected according to the requirements of the application scenario. When taking high separation efficiency as the standard, the rod can be placed close to the geometric center, or even at the geometric center. When taking low energy consumption as the standard, the rod can be placed far away from the geometric center.

Key words: rod-shaped internals, cyclone separator, turbulence model, gas-solid two-phase flow, tangential velocity, vorticity analysis, pressure drop, separation efficiency