Distribution characteristics of holdups in a multi-stage bubble column using electrical resistance tomography

Based on the principle of chemical reaction engineering, the addition of perforated plates can improve the performance of conventional bubble column and decrease the backmixing behaviors. The distribution characteristics of gas holdup in a multi-stage bubble column embedded with five types of sieve...

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Bibliographic Details
Published inParticuology Vol. 11; no. 2; pp. 225 - 231
Main Authors Jin, Haibo, Lian, Yicheng, Qin, Yujian, Yang, Suohe, He, Guangxiang
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.04.2013
Subjects
Bubble column
Bubble columns
Differential pressure method
Electrical resistance
Electrical resistance tomography
Hydrodynamics
Perforated plates
Plates
Sieve plates
Tomography
Tongue
Tongue plate
化学反应工程
多级
气含率
水动力参数
泡罩塔
特征
电阻层析成像
表观气速
Sieve plates
Tongue plate
Electrical resistance tomography
Differential pressure method
Bubble column
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Summary:Based on the principle of chemical reaction engineering, the addition of perforated plates can improve the performance of conventional bubble column and decrease the backmixing behaviors. The distribution characteristics of gas holdup in a multi-stage bubble column embedded with five types of sieve plates and three types of tongue plates were studied using electrical resistance tomography (ERT). The effects of superficial gas velocity and the geometric design of perforated plates on the gas holdup and its radial distribution above and below the plates of the bubble column were discussed. Experimental results show ERT is suitable as an online monitoring tool to provide useful information on the hydrodynamic param-eters of multi-stage bubble columns. With increasing superficial gas velocity, local gas holdup increases, and gas holdup below the plate increases with decrease of free area (%FA), hole diameters or angle of tongue plates. ERT technique facilitates noninvasive and nonintrusive visualization of cross-sectional distribution of gas holdup in a bubble column.
Bibliography:11-5671/O3
Bubble column; Electrical resistance tomography; Differential pressure method; Sieve plates ;Tongue plate
Haibo Jin, Yicheng Lian, Yujian Qin, Suohe Yang, Guangxiang He(Department of Chemical Engineering, Beijing Institute of Petrochemical Technology, Beijing 102617, China)
Based on the principle of chemical reaction engineering, the addition of perforated plates can improve the performance of conventional bubble column and decrease the backmixing behaviors. The distribution characteristics of gas holdup in a multi-stage bubble column embedded with five types of sieve plates and three types of tongue plates were studied using electrical resistance tomography (ERT). The effects of superficial gas velocity and the geometric design of perforated plates on the gas holdup and its radial distribution above and below the plates of the bubble column were discussed. Experimental results show ERT is suitable as an online monitoring tool to provide useful information on the hydrodynamic param-eters of multi-stage bubble columns. With increasing superficial gas velocity, local gas holdup increases, and gas holdup below the plate increases with decrease of free area (%FA), hole diameters or angle of tongue plates. ERT technique facilitates noninvasive and nonintrusive visualization of cross-sectional distribution of gas holdup in a bubble column.
ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-1
content type line 23
ISSN:1674-2001
2210-4291
DOI:10.1016/j.partic.2012.05.005