Solid holdup in liquid solid circulating fluidized bed with viscous liquid medium

Solid holdup in liquid solid circulating fluidized bed with viscous liquid medium

Average solid holdup in the axial direction was investigated in a liquid solid circulating fluidized bed riser (LSCFB), with liquids of different viscosities. The effect of operating parameters including; primary, secondary and total velocity, particle diameter and density was studied. Experiments w...

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Main Authors: Nirmala Gnanasundaram, Muruganandam Loganathan, Kumar Perumal
Format: Article
Language:English
Published: Elsevier 2014-12-01
Series:Alexandria Engineering Journal
Subjects:
LSCFB
Viscous effect
Axial solid holdup
Average solid holdup
Online Access:http://www.sciencedirect.com/science/article/pii/S1110016814000775
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spelling doaj-ac6083af70b645dcbcb7359745fc5ede2021-06-02T04:24:39ZengElsevierAlexandria Engineering Journal1110-01682014-12-0153495996810.1016/j.aej.2014.08.001Solid holdup in liquid solid circulating fluidized bed with viscous liquid mediumNirmala Gnanasundaram0Muruganandam Loganathan1Kumar Perumal2Chemical Engineering Division, School of Mechanical and Building Sciences, VIT University, Vellore 632014, IndiaChemical Engineering Division, School of Mechanical and Building Sciences, VIT University, Vellore 632014, IndiaChemical Engineering Department, School of Engineering and Science, Curtin University of Technology, Sarawak 98009, MalaysiaAverage solid holdup in the axial direction was investigated in a liquid solid circulating fluidized bed riser (LSCFB), with liquids of different viscosities. The effect of operating parameters including; primary, secondary and total velocity, particle diameter and density was studied. Experiments were conducted using water and glycerol at different concentration having viscosities in the range 1–1.36 cp. The results indicated that the solid holdup in the riser was axially uniform for viscous liquids and increases with increase in auxiliary velocity. The average solid holdup decreases with increase in total velocity and increases with increase in viscosity for sand–glycerol, glass bead–glycerol system. The experimental measurements were compared with the existing holdup model prediction that varied linearly with viscosity. Further, a correlation was developed to estimate average solid holdup in the riser, and the performance of the expression was compared with the present experimental data.http://www.sciencedirect.com/science/article/pii/S1110016814000775LSCFBViscous effectAxial solid holdupAverage solid holdup
collection DOAJ
language English
format Article
sources DOAJ
author Nirmala Gnanasundaram
Muruganandam Loganathan
Kumar Perumal
spellingShingle Nirmala Gnanasundaram
Muruganandam Loganathan
Kumar Perumal
Solid holdup in liquid solid circulating fluidized bed with viscous liquid medium
Alexandria Engineering Journal
LSCFB
Viscous effect
Axial solid holdup
Average solid holdup
author_facet Nirmala Gnanasundaram
Muruganandam Loganathan
Kumar Perumal
author_sort Nirmala Gnanasundaram
title Solid holdup in liquid solid circulating fluidized bed with viscous liquid medium
title_short Solid holdup in liquid solid circulating fluidized bed with viscous liquid medium
title_full Solid holdup in liquid solid circulating fluidized bed with viscous liquid medium
title_fullStr Solid holdup in liquid solid circulating fluidized bed with viscous liquid medium
title_full_unstemmed Solid holdup in liquid solid circulating fluidized bed with viscous liquid medium
title_sort solid holdup in liquid solid circulating fluidized bed with viscous liquid medium
publisher Elsevier
series Alexandria Engineering Journal
issn 1110-0168
publishDate 2014-12-01
description Average solid holdup in the axial direction was investigated in a liquid solid circulating fluidized bed riser (LSCFB), with liquids of different viscosities. The effect of operating parameters including; primary, secondary and total velocity, particle diameter and density was studied. Experiments were conducted using water and glycerol at different concentration having viscosities in the range 1–1.36 cp. The results indicated that the solid holdup in the riser was axially uniform for viscous liquids and increases with increase in auxiliary velocity. The average solid holdup decreases with increase in total velocity and increases with increase in viscosity for sand–glycerol, glass bead–glycerol system. The experimental measurements were compared with the existing holdup model prediction that varied linearly with viscosity. Further, a correlation was developed to estimate average solid holdup in the riser, and the performance of the expression was compared with the present experimental data.
topic LSCFB
Viscous effect
Axial solid holdup
Average solid holdup
url http://www.sciencedirect.com/science/article/pii/S1110016814000775
work_keys_str_mv AT nirmalagnanasundaram solidholdupinliquidsolidcirculatingfluidizedbedwithviscousliquidmedium
AT muruganandamloganathan solidholdupinliquidsolidcirculatingfluidizedbedwithviscousliquidmedium
AT kumarperumal solidholdupinliquidsolidcirculatingfluidizedbedwithviscousliquidmedium
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