固旋阀塔板的性能研究
发布时间:2019-07-13 20:06
【摘要】:在内径为600 mm的不锈钢塔内,以空气-水-氧气为物系,对固旋阀塔板的流体力学和传质性能进行研究。测定了塔板传质效率和雾沫夹带量,并与F1浮阀塔板进行对比;通过计算流体力学软件Fluent对固旋阀塔板上气相三维流场进行了数值模拟。实验结果表明:当液相喷淋密度L=5 m~3/(m~2·h)时,随着气体负荷的逐渐增大,固旋阀塔板的传质效率从小于F1浮阀到逐渐接近F1浮阀,且在实验最大气体负荷条件下超过了F1浮阀;当液相喷淋密度较大时,固旋阀塔板的传质效率高于F1浮阀塔板,且随着气体负荷的增大,差异越来越明显;固旋阀塔板的雾沫夹带比F1浮阀塔板低50%—60%,因此具有更高的气相负荷操作上限。Fluent软件模拟结果表明,固旋阀塔板中旋转流场的存在促使液层分布更均匀,气液传质得到进一步强化。
[Abstract]:In a stainless steel tower with an inner diameter of 600 mm, the hydrodynamics and mass transfer performance of the solid rotating valve tray were studied by using air-water-oxygen as the system. The mass transfer efficiency and foam entrainment of the tray were measured and compared with those of the F1 floating valve tray, and the three-dimensional flow field of the gas phase on the solid rotating valve tray was simulated by the computational fluid dynamics software Fluent. The experimental results show that when the liquid spray density is L 鈮,
本文编号:2514250
[Abstract]:In a stainless steel tower with an inner diameter of 600 mm, the hydrodynamics and mass transfer performance of the solid rotating valve tray were studied by using air-water-oxygen as the system. The mass transfer efficiency and foam entrainment of the tray were measured and compared with those of the F1 floating valve tray, and the three-dimensional flow field of the gas phase on the solid rotating valve tray was simulated by the computational fluid dynamics software Fluent. The experimental results show that when the liquid spray density is L 鈮,
本文编号:2514250
本文链接:https://www.wllwen.com/kejilunwen/huagong/2514250.html
