关键词: 旋风分离器, 气-固两相流, 冲蚀磨损, 计算流体力学, 数值模拟

Abstract: Based on the theory of gas-solid two-phase flow and erosion, conventional Stairmand cyclone separator and the rule of erosion wear type cyclone separator were studied. The results show that conventional cyclone wall erosion wear rate decreases down from the top of the cylinder. In the region below the cylinder L1/H1=0.8, the wear rate remains basically unchanged. In the region above L1/H1=0.8, the erosion wear rate shows an increasing trend, its maximum value is 2.3′10-6 kg/(m2×s). In the region below the cone L2/H2=0.35, the wear rate decreases, and in the region above L2/H2=0.35 the wear rate shows a gradual increasing trend, at the top of the pyramid it has a maximum value of 2.0′10-7 kg/(m2×s). Wear type cyclone separator in the region above cylinder L1/H1=0.8 has the maximum wall corrosion rate of 0.5′10-6 kg/(m2×s) which is far less than that of conventional cyclone separator. In the cone upward from the cone bottom the erosion wear rate decreases gradually, and is 0.4′10-7 kg/(m2×s) at the top of the cone, which is less than that of conventional cyclone separator. In small particle size range, the separation efficiency increases linearly with the increase of particle size. When the particle size is greater than 4 mm, wear type cyclone separator has a higher separation efficiency. The pressure drop decreases with increasing of the wear plate height gradually. The type A3 wear separator has a pressure drop of 360 Pa, which is less than that of conventional separator 550 Pa. Therefore, in order to reduce the cyclone wall erosion wear and reduce outlet pressure drop loss, when the particles with the size greater than 4 mm are separated, the most reasonable wear B1 type separator should be chosen for improving the wear performance of cyclone separator and prolonging its service life.

Key words: cyclone separator, gas and solid two-phase flow, erosion wear, CFD, numerical simulation