双层自吸式搅拌反应器的流体力学和传质特性  

作　　者：谢冰琪 杨乐乐 陈文霆 XIE Bingqi;YANG Lele;CHEN Wenting(State Key Laboratory of Chemical Engineering,Department of Chemical Engineering,Tsinghua University,Beijing 100084,China;Laviana Pharma Co.,Ltd.,Tianjin 300300,China)

机构地区：[1]清华大学化学工程系,化学工程联合国家重点实验室,北京100084 [2]乐威医药(天津)有限公司,天津300300

出　　处：《清华大学学报（自然科学版）》2024年第9期1658-1665,共8页Journal of Tsinghua University(Science and Technology)

摘　　要：自吸式搅拌反应器是一种高效的气液、气液固三相混合设备。目前,对自吸式搅拌反应器的研究和放大主要依赖于经验和实验,仍然需要大量的基础实验数据来指导反应器的放大。该文采用3-D打印技术设计并制造了一种双层自吸桨,用于搅拌反应器中。研究了不同叶轮转速和叶轮浸没深度对临界吸气转速、气含率和气液传质性能的影响。实验结果表明,临界吸气转速随着自吸桨浸没深度的增加而增大;增加自吸桨的转速可以有效提高系统中的气含率和气液界面面积。在1.2 L液体条件下,氢气在四氢呋喃中传质系数介于0.08~0.17 s^(-1)之间。此外,还拟合得到了氢气在四氢呋喃中的传质预测方程,用作反应器放大的指导。最后,结合该反应器研究了黄体酮加氢反应的动力学。[Objective]The self-inducing impeller reactor is a high-efficiency device for gas-liquid and gas-liquid-solid three-phase mixing.This innovative reactor offers several advantages over traditional stirred reactors,such as higher gas utilization,a simpler structure,easier operation,and superior heat and mass transfer performance.Its potential applications span a range of chemical processes,from foam flotation and bio-fermentation to hydrogenation,oxidation,alkylation,and halogenation reactions.Despite its promising capabilities,the development and scale-up of the self-inducing impeller reactor largely rely on empirical knowledge and experimental work.Therefore,there is a clear need for more fundamental research to gain a better understanding of the reactor mechanics and provide essential foundational data for its future application.[Methods] In this study,we designed and constructed a double-disk self-inducing impeller using 3D-printing.The effects of different speeds and immersion depth of the impeller on the critical impeller speed,gas holdup,and gas-liquid mass transfer performance were studied.The critical impeller speed,a key indicator of the reactor's gas dispersal capability,is defined by the minimum speed at which the first bubble appears.It is influenced by several factors,such as the impeller's shape,size,immersion depth,as well as liquid properties.[Results] The experimental results indicate that the critical impeller speed increases as the immersion depth of the impeller increases.Moreover,deviations were observed between the predicted critical speeds and those achieved during operation,which could be likely attributed to axial drifts in the critical speed.Increasing the speed of the self-inducing impeller was found to significantly improve both the gas holdup and the gas-liquid interfacial area within the system.Under the experimental conditions described in this work,the gas holdup varied from 0%to 10%,with bubble sizes ranging from 1 to 5 mm.An automated platform based on LabVIEW was established to m

关 键 词：自吸式搅拌反应器 流体力学 气液传质 加氢反应 

分 类 号：TQ202[化学工程—有机化工]