针对立式气液分离器饱和蒸汽壳径过大的缺点和不足,研发一种用卧式分离器取代替立式分离器的方法,分析气体进入分离器的状态,利用流体动力学模型(CFD)进行模拟。因为气流中夹带的液体将对大部分工业生产产生很大影响,在生产的过程中,必须从气体中分离出含碳原子数烷类以及水或杂质。由于液滴会对压缩机的叶轮造成损害,因此,生产过程中必须除去位于压缩机上游的液滴。依靠苏尔寿模拟技术支持,优化分离器的内部结构,分离装置上下加分配系统把压降和液滴优化到分离网分离的最大效率,可以缩短分离器直径和长度,降低成本、节能达到分离效果最佳。 In view of the shortcomings and insufficiency of saturated steam shell diameter of vertical gas-liquid separator, a method of replacing horizontal separator with vertical separator was developed to analyze the state of gas entering the separator. The fluid dynamics model (CFD ) Simulation. Because the liquid entrained in the gas stream will have a large impact on most industrial processes, it is essential that the alkanes containing carbon atoms and the water or impurities be separated from the gas during the production. Because droplets can cause damage to the impeller of the compressor, droplets that are upstream of the compressor must be removed during production. Rely on the Sulzer simulation technology to optimize the internal structure of the separator, the separation device up and down plus the distribution system to optimize the pressure drop and droplet separation network separation maximum efficiency, can shorten the separator diameter and length, reduce costs and energy savings to achieve separation Best effect.