Split internal-loop photobioreactor for Scenedesmus sp. microalgae: Culturing and hydrodynamics

In this study, the evaluation of the performance of the split internal loop photobioreactor for culturing a species of green microalgae, Scenedesmus sp. under different operating superficial gas velocity and during a different time of growth (i.e., starting for the first day until end day of the cul...

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Published inChinese journal of chemical engineering Vol. 33; no. 5; pp. 236 - 248
Main Authors Sabri, Laith S., Sultan, Abbas J., Al-Dahhan, Muthanna H.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.05.2021
Multiphase Flow and Reactors Engineering and Application Laboratory(mReal),Chemical and Biochemical Engineering Department,Missouri University of Science and Technology,Rolla,MO 65409-1230.USA
University of Technology,Chemical Engineering Department,Baghdad,Iraq%Multiphase Flow and Reactors Engineering and Application Laboratory(mReal),Chemical and Biochemical Engineering Department,Missouri University of Science and Technology,Rolla,MO 65409-1230.USA
Subjects
Cylindrical airlift photobioreactor
Non-invasive gamma-ray technique
Physical properties
Scenedesmus microalgae
Cylindrical airlift photobioreactor
Physical properties
Scenedesmus microalgae
Non-invasive gamma-ray technique
Online AccessGet full text
ISSN1004-9541
2210-321X
DOI10.1016/j.cjche.2020.07.058

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Abstract In this study, the evaluation of the performance of the split internal loop photobioreactor for culturing a species of green microalgae, Scenedesmus sp. under different operating superficial gas velocity and during a different time of growth (i.e., starting for the first day until end day of the culturing process) was addressed. The evaluation of the performance of the split internal loop photobioreactor was included assessing the density, pH, temperature, viscosity, surface tension, the optical density, cell population, dry biomass, and chlorophyll of the culture medium of the microalgae culturing. Additionally, the hydrodynamics of a Split Internal-Loop Photobioreactor with microalgae culturing was comprehensively quantified. Radioactive particle tracking (RPT) and gamma-ray computed tomography (CT) techniques were applied for the first time to quantify and address the influence of microalgae culture on the hydrodynamic parameters. The hydrodynamics parameters such as local liquid velocity field, shear stresses, turbulent kinetic energy, and local gas holdup profiles were measured at different superficial gas velocities as well as under different times of algae growth. The obtained results indicate that the flow distribution may significantly affect the performance of the photobioreactor, which may have substantial effects on the cultivation process. The obtained experimental data can serve as benchmark data for the evaluation and validation of computational fluid dynamics (CFD) codes and their closures. This, in turn, allows us to develop efficient reactors and consequently improving the productivity and selectivity of these photobioreactors. [Display omitted]
AbstractList In this study, the evaluation of the performance of the split internal loop photobioreactor for culturing a species of green microalgae, Scenedesmus sp. under different operating superficial gas velocity and during a different time of growth (i.e., starting for the first day until end day of the culturing process) was addressed. The evaluation of the performance of the split internal loop photobioreactor was included assessing the density, pH, temperature, viscosity, surface tension, the optical density, cell population, dry biomass, and chlorophyll of the culture medium of the microalgae culturing. Additionally, the hydrodynamics of a Split Internal-Loop Photobioreactor with microalgae culturing was comprehensively quantified. Radioactive particle tracking (RPT) and gamma-ray computed tomography (CT) techniques were applied for the first time to quantify and address the influence of microalgae culture on the hydrodynamic parameters. The hydrodynamics parameters such as local liquid velocity field, shear stresses, turbulent kinetic energy, and local gas holdup profiles were measured at different superficial gas velocities as well as under different times of algae growth. The obtained results indicate that the flow distribution may significantly affect the performance of the photobioreactor, which may have substantial effects on the cultivation process. The obtained experimental data can serve as benchmark data for the evaluation and validation of computational fluid dynamics (CFD) codes and their closures. This, in turn, allows us to develop efficient reactors and consequently improving the productivity and selectivity of these photobioreactors. [Display omitted]
In this study, the evaluation of the performance of the split internal loop photobioreactor for culturing a species of green microalgae, Scenedesmus sp. under different operating superficial gas velocity and during a different time of growth (i.e., starting for the first day until end day of the culturing process) was addressed. The evaluation of the performance of the split internal loop photobioreactor was included assessing the density, pH, temperature, vis-cosity, surface tension, the optical density, cell population, dry biomass, and chlorophyll of the culture medium of the microalgae culturing. Additionally, the hydrodynamics of a Split Internal-Loop Photobioreactor with microalgae culturing was comprehensively quantified. Radioactive particle tracking (RPT) and gamma-ray com-puted tomography (CT) techniques were applied for the first time to quantify and address the influence of microalgae culture on the hydrodynamic parameters. The hydrodynamics parameters such as local liquid veloc-ity field, shear stresses, turbulent kinetic energy, and local gas holdup profiles were measured at different super-ficial gas velocities as well as under different times of algae growth. The obtained results indicate that the flow distribution may significantly affect the performance of the photobioreactor, which may have substantial effects on the cultivation process. The obtained experimental data can serve as benchmark data for the evaluation and validation of computational fluid dynamics (CFD) codes and their closures. This, in turn, allows us to develop ef-ficient reactors and consequently improving the productivity and selectivity of these photobioreactors.
Author Sultan, Abbas J.
Sabri, Laith S.
Al-Dahhan, Muthanna H.
AuthorAffiliation Multiphase Flow and Reactors Engineering and Application Laboratory(mReal),Chemical and Biochemical Engineering Department,Missouri University of Science and Technology,Rolla,MO 65409-1230.USA;University of Technology,Chemical Engineering Department,Baghdad,Iraq%Multiphase Flow and Reactors Engineering and Application Laboratory(mReal),Chemical and Biochemical Engineering Department,Missouri University of Science and Technology,Rolla,MO 65409-1230.USA
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Keywords Cylindrical airlift photobioreactor
Physical properties
Scenedesmus microalgae
Non-invasive gamma-ray technique
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Multiphase Flow and Reactors Engineering and Application Laboratory(mReal),Chemical and Biochemical Engineering Department,Missouri University of Science and Technology,Rolla,MO 65409-1230.USA
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Snippet In this study, the evaluation of the performance of the split internal loop photobioreactor for culturing a species of green microalgae, Scenedesmus sp. under...
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SubjectTerms Cylindrical airlift photobioreactor
Non-invasive gamma-ray technique
Physical properties
Scenedesmus microalgae
Title Split internal-loop photobioreactor for Scenedesmus sp. microalgae: Culturing and hydrodynamics
URI https://dx.doi.org/10.1016/j.cjche.2020.07.058
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