Investigation of the Gas-Liquid Flow in an Agitated Vessel Equipped with an ASI Impeller by Using Tomography Method

Investigation of the Gas-Liquid Flow in an Agitated Vessel Equipped with an ASI Impeller by Using Tomography Method

In this study, the hydrodynamics of the gas dispersion in an aerated vessel equipped with a newly designed impeller (ASI impeller), a combination of the pitched blade turbine and the Scaba impeller was investigated. The performance of the ASI impeller was compared with the performances of the pitche...

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Main Authors: Fariba Khalili, Mohammad Reza Jafari Nasr, Farhad Mozaffari, Mohammad Soltanieh
Format: Article
Language:English
Published: Iranian Institute of Research and Development in Chemical Industries (IRDCI)-ACECR 2020-08-01
Series:Iranian Journal of Chemistry & Chemical Engineering
Subjects:
electrical resistance tomography
mixing time
power consumption
gas holdup
asi impeller
Online Access:http://www.ijcce.ac.ir/article_37427_474bd5f7c33ba95db97137deb4359a5d.pdf
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spelling doaj-323a910b14c7415d8d99222742ca9d722021-01-23T19:52:30ZengIranian Institute of Research and Development in Chemical Industries (IRDCI)-ACECRIranian Journal of Chemistry & Chemical Engineering 1021-99861021-99862020-08-0139432133810.30492/ijcce.2019.3742737427Investigation of the Gas-Liquid Flow in an Agitated Vessel Equipped with an ASI Impeller by Using Tomography MethodFariba Khalili0Mohammad Reza Jafari Nasr1Farhad Mozaffari2Mohammad Soltanieh3Department of Chemical Engineering, Science and Research Branch, Islamic Azad University, Tehran, I.R. IRANDepartment of Chemical Engineering, Science and Research Branch, Islamic Azad University, Tehran, I.R. IRANDepartment of Chemical Engineering, Ryerson University, 350 Victoria Street, Toronto, M5B 2K3, CANADADepartment of Chemical Engineering, Science and Research Branch, Islamic Azad University, Tehran, I.R. IRANIn this study, the hydrodynamics of the gas dispersion in an aerated vessel equipped with a newly designed impeller (ASI impeller), a combination of the pitched blade turbine and the Scaba impeller was investigated. The performance of the ASI impeller was compared with the performances of the pitched blade turbine and the Rushton impeller. The non-invasive Electrical Resistance Tomography (ERT) technique was used to assess the gas dispersion inside the mixing vessel. The effects of the volumetric gas flow, and impeller type and speed were investigated on power drawn, gas holdup, and mixing time. An analysis of the experimental data indicated that the ASI impeller exhibited a minimal effect of the gassing on the power drawn compared to the pitch blade and the Rushton turbine. Measured data on gassed power consumption indicated that the ASI impeller was about 45% more efficient than the Rushton turbine and 20% more than the downward PBT under the general operating conditions in bioreactors for gas flow rate about 1 vvm. Also, this impeller showed a higher amount of gas hold up and lower mixing time compared to the two other studied impellers. A dimensionless correlation for the relative power consumption as a function of flow number and Froud number was developed for the aerated agitated tank. Also, a dimensionless correlation was introduced to compute the overall gas hold up as a function of specific power consumption and superficial gas velocity for the gas-liquid agitated system. The overall conclusion from this study demonstrated that the axial-radial ASI impeller is a good energy-efficient impeller for the aeration system and bioreactors based on the results from the investigation of the data in terms of the power consumption, gas holdup, and mixing time.http://www.ijcce.ac.ir/article_37427_474bd5f7c33ba95db97137deb4359a5d.pdfelectrical resistance tomographymixing timepower consumptiongas holdupasi impeller
collection DOAJ
language English
format Article
sources DOAJ
author Fariba Khalili
Mohammad Reza Jafari Nasr
Farhad Mozaffari
Mohammad Soltanieh
spellingShingle Fariba Khalili
Mohammad Reza Jafari Nasr
Farhad Mozaffari
Mohammad Soltanieh
Investigation of the Gas-Liquid Flow in an Agitated Vessel Equipped with an ASI Impeller by Using Tomography Method
Iranian Journal of Chemistry & Chemical Engineering
electrical resistance tomography
mixing time
power consumption
gas holdup
asi impeller
author_facet Fariba Khalili
Mohammad Reza Jafari Nasr
Farhad Mozaffari
Mohammad Soltanieh
author_sort Fariba Khalili
title Investigation of the Gas-Liquid Flow in an Agitated Vessel Equipped with an ASI Impeller by Using Tomography Method
title_short Investigation of the Gas-Liquid Flow in an Agitated Vessel Equipped with an ASI Impeller by Using Tomography Method
title_full Investigation of the Gas-Liquid Flow in an Agitated Vessel Equipped with an ASI Impeller by Using Tomography Method
title_fullStr Investigation of the Gas-Liquid Flow in an Agitated Vessel Equipped with an ASI Impeller by Using Tomography Method
title_full_unstemmed Investigation of the Gas-Liquid Flow in an Agitated Vessel Equipped with an ASI Impeller by Using Tomography Method
title_sort investigation of the gas-liquid flow in an agitated vessel equipped with an asi impeller by using tomography method
publisher Iranian Institute of Research and Development in Chemical Industries (IRDCI)-ACECR
series Iranian Journal of Chemistry & Chemical Engineering
issn 1021-9986
1021-9986
publishDate 2020-08-01
description In this study, the hydrodynamics of the gas dispersion in an aerated vessel equipped with a newly designed impeller (ASI impeller), a combination of the pitched blade turbine and the Scaba impeller was investigated. The performance of the ASI impeller was compared with the performances of the pitched blade turbine and the Rushton impeller. The non-invasive Electrical Resistance Tomography (ERT) technique was used to assess the gas dispersion inside the mixing vessel. The effects of the volumetric gas flow, and impeller type and speed were investigated on power drawn, gas holdup, and mixing time. An analysis of the experimental data indicated that the ASI impeller exhibited a minimal effect of the gassing on the power drawn compared to the pitch blade and the Rushton turbine. Measured data on gassed power consumption indicated that the ASI impeller was about 45% more efficient than the Rushton turbine and 20% more than the downward PBT under the general operating conditions in bioreactors for gas flow rate about 1 vvm. Also, this impeller showed a higher amount of gas hold up and lower mixing time compared to the two other studied impellers. A dimensionless correlation for the relative power consumption as a function of flow number and Froud number was developed for the aerated agitated tank. Also, a dimensionless correlation was introduced to compute the overall gas hold up as a function of specific power consumption and superficial gas velocity for the gas-liquid agitated system. The overall conclusion from this study demonstrated that the axial-radial ASI impeller is a good energy-efficient impeller for the aeration system and bioreactors based on the results from the investigation of the data in terms of the power consumption, gas holdup, and mixing time.
topic electrical resistance tomography
mixing time
power consumption
gas holdup
asi impeller
url http://www.ijcce.ac.ir/article_37427_474bd5f7c33ba95db97137deb4359a5d.pdf
work_keys_str_mv AT faribakhalili investigationofthegasliquidflowinanagitatedvesselequippedwithanasiimpellerbyusingtomographymethod
AT mohammadrezajafarinasr investigationofthegasliquidflowinanagitatedvesselequippedwithanasiimpellerbyusingtomographymethod
AT farhadmozaffari investigationofthegasliquidflowinanagitatedvesselequippedwithanasiimpellerbyusingtomographymethod
AT mohammadsoltanieh investigationofthegasliquidflowinanagitatedvesselequippedwithanasiimpellerbyusingtomographymethod
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