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DTB(Draft tube baffled)结晶器是一种连续生产蛋氨酸的结晶设备,目前少有研究关注工业级DTB结晶器的流动特性。利用计算流体力学(CFD)技术和欧拉-欧拉模型描述工业级DTB结晶器的宏观流动特性,探究增加导叶结构提高结晶器内循环的合理性,并研究导流筒长度和挡板长度对流体流动和颗粒悬浮状态的影响。模拟结果表明,增加导叶结构提高了结晶器的轴流效果;导流筒长度为2.8 m时结晶器既能保持良好的内循环效果,又不会因到达沸腾液面的流速过高导致流场不稳定;挡板长度决定沉降区的大小,太长的挡板不利于细晶消除和结晶器的稳定运行。
Abstract:DTB crystallizer(draft tube baffled) can be used to produce methionine as a continuous industrial crystallization equipment. There are few studies have focused on the flow characteristics of industrial-scale DTB crystallizer at present. Computational fluid dynamics(CFD) technology and Euler-Euler model were used to describe the macroscopic flow characteristics of industrial DTB crystallizer. The rationality of increasing the guide vane to improve circulation in the crystallizer was investigated, and the effect of draft tube length and baffle length on fluid flow and particle suspension state was studied. The simulation results show that increasing the guide vane improves the axial flow effect of the crystallizer. When the draft tube length is 2.8 m, the DTB crystallizer can maintain a good internal circulation effect without unstable flow field due to high velocity reaching the boiling liquid level. The baffle length determines the size of the settling zone, and long baffle is unfavorable for eliminating fine crystals and stabilizing the operation of the crystallizer.
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基本信息:
DOI:10.13353/j.issn.1004.9533.20230169
中图分类号:TQ051.63;TQ226.36
引用信息:
[1]陈志荣,相艳停,袁慎峰,等.DTB结晶器的结构对流动特性的影响[J].化学工业与工程,2025,42(02):125-134.DOI:10.13353/j.issn.1004.9533.20230169.
基金信息:
中央高校基本科研业务费专项资金资助项目(226-2023-00085)
2023-11-27
2023-11-27
2023-11-27