Research progress of multiphase transport in high gravity environment in rotating packed bed

doi:10.3969/j.issn.0438-1157.2013.01.026

Abstract

Abstract: As a highly efficient equipment for mass transfer, separation and reaction, rotating packed bed (RPB) has been widely used in chemical engineering, environmental protection, nanomaterial preparation, energy engineering, pharmaceutical engineering and other industrial processes.In this paper, fluid mechanics, mass transfer, micro-mixing, multi-scale transfer in high gravity environment are reviewed.In recent years, with the advances in computer science and multiphase transfer process, the study on multiphase transport phenomena in RPB have evolved from experiments mainly to the combination of experiments and numerical simulation.The advance in the modeling of multiphase transport phenomena and the numerical simulation in RPBs are summarized.The direction and focus of future research on multi-phase transport phenomena in high gravity environment are proposed.

Key words: RPB, high gravity environment, multiphase transport, micro-mixing, multi-scale phenomena, process intensification

摘要： 旋转填充床作为一种高效的传质、分离与反应设备,在化工、环境保护、纳米材料制备、能源、制药等工业过程得到广泛应用。本文对旋转填充床超重力环境下,流体力学特性、传质性能、微观混合、多尺度传递特性等方面的研究进行了总结归纳。近年来,随着计算机科学与多相流传递过程的研究进展,对传递过程的研究也由实验手段为主转变为实验与数值模拟相结合的手段,对有关的数值模拟研究以及相应的多相流模型也予以总结描述。在此基础上,对旋转填充床超重力环境下多相流研究的未来发展提出了有关设想。

关键词: 旋转填充床, 超重力环境, 多相流传递, 微观混合, 多尺度现象, 过程强化

CLC Number:

TQ027.1

ZHANG Jianwen, GAO Dongxia, LI Yachao, CHEN Jianfeng. Research progress of multiphase transport in high gravity environment in rotating packed bed[J]. CIESC Journal, 2013, 64(1): 243-251.

张建文, 高冬霞, 李亚超, 陈建峰. 旋转床超重力环境下多相流传递过程研究进展[J]. 化工学报, 2013, 64(1): 243-251.

References 48

[1]	Chen Jianfeng(陈建峰).The Technology and Applications of High Gravity—New Reactive and Separation Technology(超重力技术及应用——新一代反应与分离技术)[M].Beijing:Chemical Industry Press, 2002:3-106
[2]	Chen Yu-Shao, Tai Clifford Yi-Der, Chang Ming-Hui, Liu Hwai-Shen.Characteristics of micromixing in a rotating packed bed[J].J.Chin.Inst.Chem.Engrs.,2006,37(1):63-69
[3]	Ramshaw C.Higee distillation:an example of process intensification[J].Chem.Engr.,1983:13-14
[4]	Lin Chia-Chang,Chen Bor-Chi.Carbon dioxide absorption in a cross-flow rotating packed bed[J].Chemical Engineering Research and Design, 2011(89):1722-1729
[5]	Cheng Hsu-Hsiang, Tan Chung-Sung.Removal of CO2 from indoor air by alkanolamine in a rotating packed bed[J].Separation and Purification Technology, 2011,82:156-166
[6]	Li Yu, Liu Youzhi, Zhang Luyao, Su Qiang, Jin Guoliang. Absorption of NOx into nitric acid solution in rotating packed bed[J].Chinese Journal of Chemical Engineering, 2010,18(2):244-248
[7]	Jiang Xiuping, Liu Youzhi, Gu Meiduo.Absorption of sulphur dioxide with sodium citrate buffer solution in a rotating paced bed[J].Chinese Journal of Chemical Engineering, 2010, 19(4):687-692
[8]	Chen Wei-Hsin,Syu Yu-Jhih.Hydrogen production from water gas shift reaction in a high gravity(Higee)environment using a rotating packed bed[J].International Journal of Hydrogen Energy, 2010,35:10179-10189
[9]	Li Woyuan, Wu Wei, Zou Haikui, Chu Guangwen,Shao Lei,Chen Jianfeng.Process intensification of VOC removal from high viscous media by rotating packed bed[J].Chinese Journal of Chemical Engineering, 2009,17(3):389-393
[10]	Ko Chun-Han,Guan Chung-Yu,Lu Pei-Jen,Chern Jia-Ming.Ozonation of guaiacol solution in a rotating packed bed[J].Chemical Engineering Journal, 2011,171:1045-1052
[11]	Chen Jianfeng(陈建峰), Jia Zhiqian(贾志谦).Synthesis and characterization of cube-shaped CaCO3 nanometer particles in high gravity field[J].Chinese Journal of Chemical Physics(化学物理学报), 1997,10(5):5-11
[12]	Chen Jianfeng, Wang Yuhong, Guo Fen, Wang Xinming, Zheng Chong.Synthesis of nanoparticles with novel technology:high-gravity reactive precipitation[J].Ind.Eng.Chem.Res., 2000,39:948-954
[13]	Chen Yi-Hung, Huang Yu-Hang, Lin Rong-Hsien, Shang Neng-Chou, Chang Ching-Yuan, Chang Chia-Chi, Chiang Pen-Chi, Hu Ching-Yao.Biodiesel production in a rotating packed bed using K/γ-Al2O3 solid catalyst[J].Journal of the Taiwan Institute of Chemical Engineers, 2011,42:937-944
[14]	Shen Zhigang(沈志刚), Chen Jianfeng(陈建峰), Zhong Jie(钟杰), Hu Weiguo(胡卫国),Yun Jimmy.Properties of cephradine produced by high gravity technology[J].Chinese Pharmaceutical Journal(中国药学杂志), 2004,39(1):36
[15]	Burns J R, Ramshaw C.Process intensification:visual study of liquid maldistribution in rotating packed beds[J].Chemical Engineering Science, 1996,51(8):1347- 1352
[16]	Tung H H, Mah R S H.Modeling liquid mass transfer in Higee separation process[J].Chem.Eng.Commun., 1985,39:147
[17]	Li Zhenhu(李振虎).A study on modeling of mass-transfer in RPB[D].Beijing:Beijing University of Chemical Technology, 2000
[18]	Zhang Jianwen(张建文), Li Yachao(李亚超), Chen Jianfeng(陈建峰).Characteristics of micromixing and reaction in a rotating bed[J].CIESC Journal(化工学报), 2011,62(10):2726-2732
[19]	Guo Kai(郭锴).A study on liquid flowing inside the Higee rotor[D].Beijing:Beijing University of Chemical Technology, 1996
[20]	Guo Kai,Guo Fen,Feng Yuanding, et al.Synchronous visual and RTD study on liquid flow in rotating packed bed contactor[J].Chemical Engineering Science, 2000,55(9):1699-1706
[21]	Zhan Jun(张军), Guo Kai(郭锴), Guo Fen(郭奋), Zhu Jiesong(竺洁松), Zheng Chong(郑冲).Experimental study about flow of liquid in rotating packed bed[J].Journal of Chemical Engineering of Chinese Universities(高校化学工程学报), 2000,14(8):378-381
[22]	Zhu Jiesong(竺洁松).Effect of liquid atomization on mass transfer intensification in rotating packed beds[D].Beijing:Beijing University of Chemical Technology, 1997
[23]	Yang Wenjing, Wang Yundong, Chen Jianfeng, Fei Weiyang. Computational fluid dynamic simulation of fluid flow in a rotating packed bed[J].Chemical Engineering Journal, 2010,156:582-587
[24]	Yang Kuang(杨旷).Micromixing and gas-liquid mass transfer characteristic in rotating packed bed[D].Beijing:Beijing University of Chemical Technology, 2010
[25]	Guo Fen, Zheng Chong, Guo Kai, Feng Yuanding, Nelson C Gardner.Hydrodynamics and mass transfer in cross-flow rotating packed bed[J].Chem.Eng.Sci., 1997,52(21):3853-3859
[26]	Munjal S, Dudukovic M P, Ramachandran P.Mass-transfer in rotating packed beds(Ⅱ):Experimental results and comparison with theory and gravity flow[J].Chem. Eng. Sci.,1989,44:2257-2268
[27]	Chen Haihui(陈海辉), Deng Xianhe(邓先和), Zhang Jianjun(张建军), Zhang Yajun(张亚君).The effective gas liquid interfacial area and volumetric mass transfer coefficient measured by chemical absorption method in rotating packed bed with multiple spraying under centrifugal force[J].Chemical Reaction Engineering and technology(化学反应工程与工艺), 1999,15(1):1-11
[28]	Basic A, Dudukovic M P.Liquid hold-up in rotating packed beds:examination of the film flow assumption[J].AIChE Journal, 1995,41(2):301-316
[29]	Lin Chia-Chang, Chen Yu-Shao, Liu Hwai-Shen. Countercurrent-flow rotating packed bed[J].IChemE, 2000, 78(A):397
[30]	Burns J R, Jamil J N, Ramshaw C.Process intensification:operating characteristics of rotating packed beds—determination of liquid hold-up for a high-voidage structured packing[J].Chem.Eng.Sci., 2000,55:2401
[31]	Munjal S, Dudukovic M P, Ramachandran P.Mass transfer in rotating packed beds(Ⅰ):Development of gas liquid and liquid solid mass-transfer correlations[J].Chem. Eng. Sci., 1989,44:2245
[32]	Singh S P, Wilson J H, Counce R M, Villiersfisher J F,Jennings H L, Lucero A J, Reed G D, Ashworth R A, Elliott M G.Removal of volatile organic-compounds from groundwater using a rotary air stripper[J].Ind. Eng. Chem.Res., 1992,31:574
[33]	Chen Yu-Shao, Lin Chia-Chang, Liu Hwau-Shen.Mass transfer in rotating packed bed with various radii of the bed[J].Ind.Eng.Chem.Res., 2005,44:7868-7885
[34]	Chen Yu-Shao, Lin Chia-Chang, Liu Hwau-Shen.Mass transfer in a rotating packed bed with viscous Newtonian and non-Newtonian fluids[J].Ind.Eng.Chem.Res., 2005,44:1043-1051
[35]	Chen Yu-Shao, Lin Fang-Yi, Lin Chia-Chang, Tai Clifford Yi-Der, Liu Hwau-Shen.Packing characteristics for mass transfer in a rotating packed bed[J].Ind. Eng. Chem. Res., 2006,45:6846-6853
[36]	Yang Kuang, Chu Guangwen, Zou Haikui, Sun Baochang, Shao Lei, Chen Jianfeng.Determination of the effective interfacial area in rotating packed bed[J].Chemical Engineering Journal, 2011,168:1377-1382
[37]	Xu Ming(许明), Zhan Jianwen(张建文), Chen Jianfeng(陈建峰), Zhao Jin(赵瑾), Shen Zhigang(沈志刚).Modeling of water deoxygenation in a rotating packed bed[J].Journal of Chemical Engineering of Chinese Universities(高校化学工程学报), 2005,19(3):309-314
[38]	Sandilya Pavitra, Rao D P, Sharma A.Gas-phase mass transfer in a centrifugal contactor[J].Ind. Eng. Chem. Res., 2001,40(1):384-392
[39]	Lin Chia-Chang, Chen Bor-Chi.Characteristics of cross-flow rotating packed beds[J].Journal of Industrial and Engineering Chemistry, 2008,14:322-327
[40]	Lin Chia-Chang, Chao Chen-Yu, Liu Mei-Yun.Removal of ozone from air by absorption in a rotating packed bed[J].Journal of Industrial and Engineering Chemistry, 2010,16:140
[41]	Chen Yu-Shao.Correlations of mass transfer coefficients in a rotating packed bed[J].Ind.Eng.Chem.Res., 2011, 50(3):1778
[42]	Saha Dipendu.Prediction of mass transfer coefficient in rotating bed contactor(Higee)using artificial neural network[J].Heat Mass Transfer, 2009,45:451-457
[43]	Curl R L.Dispersed phase mixing(Ⅰ):Theory and effects in simple reactors[J].AIChE Journal,1963,9(2):175-181
[44]	Liu Ji(刘骥).Study on micromxing and synthesis of nanometer particle of strontium carbonate by mixing solutions in rotating paced bed[D].Beijing:Beijing University of Chemical Technology, 1999
[45]	Xiang Yang(向阳), Chen Jianfeng(陈建峰), Gao Zhengming(高正明).Modelling and experimental in rotating packed bed[J].Journal of Chemical Industry and Engineering(China)(化工学报), 2008,59(8):2021-2026
[46]	Qiu Kunyu(邱[XC]玉), Lü Hexiang(吕和祥), Chen Jianfeng(陈建峰).Mathematical model for calculating micro-mixing chemical reaction in rotating packed bed[J].Journal of Chemical Industry and Engineering(China)(化工学报), 2005,56(7):1218-1224
[47]	Liang Jiguo(梁继国), Chen Jianfeng(陈建峰), Zhang Jianwen(张建文).Numerical simulation of micromixing in rotating packed bed[J].Journal of Chemical Industry and Engineering(China)(化工学报), 2004,55(6):882-887
[48]	Philip J Smith, Jennifer P Spinti.Bridging chemistry and mixing time scales in reacting-flow simulations[R].Utah:The University of Utah, 1999