Gimbun et al. [5] ได้ทำการศึกษาขนาด

Gimbun et al [5] has made a study of the conical cyclone dimensions that affect the performance and behavior of the cyclone movement in motion by a turbulent flow simulation (turbulent model) by renormalization group (RNG k-) with the Reynolds stress model (RSM) equation in three dimensions with a cyclone changed its cyclone Cone. It was found that the RSM flow simulation, the effect of pressure loss and trap particles deviates from the performance trial for about 2.9% and 2.1%, 5%, and the results of the simulation showed that the cyclone inlet velocity and alignment with high value for the cyclone cone sizes. It is a performance trap and the maximum pressure loss.

Gimbun et al. [5] studied the size of the cyclone cone that is affecting the performance of motion in cyclones. And the nature of the movement By simulating the turbulent (turbulent model) format renormalization group (RNG k-) with Reynolds stress equation model (RSM) in three sizes, with the cyclone cone of the cyclone. The simulation showed that the results of RSM flow pressure loss. And effectively trap particles deviate from trials about 2.9%, 5% and 2.1%, and the results of the simulation showed that the speed of the cyclone in tangential and axial cyclone is higher for the smallest size cone. As a result, the efficiency of trapping and pressure loss up as well.

Gimbun et al.[] to study 5 size cone cyclone affecting performance movement in cyclone. And the characteristics of the movement by using the simulation of turbulent. (turbulent model) format renormalization group (RNG K -). Reynolds stress equation model (RSM).3 size has changed the cone of cyclone, it is found that the simulation of RSM yield of pressure loss. Particle collection efficiency and deviation from the experiment about 2.9% 5% 2.1%, and the results from the simulation and found that the speed the cyclone in the touch and axial high value for CY clone with the smallest cone size Therefore, effective efficiency and maximum trap pressure loss as well.