规整包装
计算流体力学
蒸馏
材料科学
流量(数学)
雷诺数
机械
流体力学
分子动力学
曲面(拓扑)
工艺工程
液体流动
计算机科学
动力学(音乐)
分馏塔
数学
机械工程
减压蒸馏
液态液体
萃取蒸馏
化学
计算机模拟
产品(数学)
作者
Li Qunsheng,Wang Kehan,Xu Shiji,Yuan Xing,Lun Yang,Xue Jiaxing,Ren Zhongqi,Hongkang Zhao
摘要
Abstract A novel wavy‐ring random packing enhances liquid film flow, distribution, and renewal in distillation columns by modifying the ring's surface into a wavy shape and altering its internal structure for optimized flow. A general optimization framework for this novel packing was established. First, computational fluid dynamics simulations were conducted to analyze liquid flow characteristics along and inside the packing, identifying key parameters such as film thickness δ . Next, theoretical analysis was conducted to derive the relationship between the film thickness δ and liquid velocity u b . Furthermore, the wavy‐ring structure was precisely designed to ensure that the liquid film Reynolds number alternates above and below the critical value Re 0 , thereby achieving adequate liquid film disturbance and surface renewal. Finally, the novel packing was validated in a distillation experiment using plastic pyrolysis oil, and the product purities of acetophenone and phenol were increased by 7.48% and 13.68%, respectively.
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