EFFECT OF IMPELLER BLADE THICKNESS ON CRITICAL IMPELLER SPEED IN AN AGITATED VESSEL

EFFECT OF IMPELLER BLADE THICKNESS ON CRITICAL IMPELLER SPEED IN AN AGITATED VESSEL

The successful design and operation of solid-liquid agitators require proper prediction of critical impeller speed (Njs) needed to suspend solids. It depends on system and impeller geometry as well as the properties of both solid and liquid. In this research, the effect of impeller blade thickness o...

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Main Authors: LOGANATHAN MURUGANANDAM, DEVARAJULU CHITRA *
Format: Article
Language:English
Published: Alma Mater Publishing House "Vasile Alecsandri" University of Bacau 2017-12-01
Series:Scientific Study & Research: Chemistry & Chemical Engineering, Biotechnology, Food Industry
Subjects:
the effect of impeller blade thickness on Njs required for complete suspension of solid particles was discussed. Experiments were performed in an agitated vessel of 0.29 m diameter with three impellers namely Rushton turbine (RT)
Pitched blade turbine (PBT) and A320 impeller. The impeller thickness was varied as 1
2
3 and 4 mm. The results showed that with the increase in impeller blade thickness
the critical impeller speed decreased significantly and the power required for complete suspension increased. Modifications are made in the Zwietering correlation by considering the effect of the impeller blade thickness to improve the prediction of critical impeller speed.
agitated vessel
axial impeller
impeller blade thickness
minimum impeller speed
radial impeller
solid suspension
Zwietering constant
Online Access:http://pubs.ub.ro/?pg=revues&rev=cscc6&num=201704&vol=4&aid=4634
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spelling doaj-395e168976f443d28d7f7b3d67e715112020-11-24T21:10:42ZengAlma Mater Publishing House "Vasile Alecsandri" University of BacauScientific Study & Research: Chemistry & Chemical Engineering, Biotechnology, Food Industry1582-540X1582-540X2017-12-01184377390EFFECT OF IMPELLER BLADE THICKNESS ON CRITICAL IMPELLER SPEED IN AN AGITATED VESSELLOGANATHAN MURUGANANDAM0 DEVARAJULU CHITRA *1The successful design and operation of solid-liquid agitators require proper prediction of critical impeller speed (Njs) needed to suspend solids. It depends on system and impeller geometry as well as the properties of both solid and liquid. In this research, the effect of impeller blade thickness on Njs required for complete suspension of solid particles was discussed. Experiments were performed in an agitated vessel of 0.29 m diameter with three impellers namely Rushton turbine (RT), Pitched blade turbine (PBT) and A320 impeller. The impeller thickness was varied as 1, 2, 3 and 4 mm. The results showed that with the increase in impeller blade thickness, the critical impeller speed decreased significantly and the power required for complete suspension increased. Modifications are made in the Zwietering correlation by considering the effect of the impeller blade thickness to improve the prediction of critical impeller speed.The successful design and operation of solid-liquid agitators require proper prediction of critical impeller speed (Njs) needed to suspend solids. It depends on system and impeller geometry as well as the properties of both solid and liquid. In this research, the effect of impeller blade thickness on Njs required for complete suspension of solid particles was discussed. Experiments were performed in an agitated vessel of 0.29 m diameter with three impellers namely Rushton turbine (RT), Pitched blade turbine (PBT) and A320 impeller. The impeller thickness was varied as 1, 2, 3 and 4 mm. The results showed that with the increase in impeller blade thickness, the critical impeller speed decreased significantly and the power required for complete suspension increased. Modifications are made in the Zwietering correlation by considering the effect of the impeller blade thickness to improve the prediction of critical impeller speed.The successful design and operation of solid-liquid agitators require proper prediction of critical impeller speed (Njs) needed to suspend solids. It depends on system and impeller geometry as well as the properties of both solid and liquid. In this research, the effect of impeller blade thickness on Njs required for complete suspension of solid particles was discussed. Experiments were performed in an agitated vessel of 0.29 m diameter with three impellers namely Rushton turbine (RT), Pitched blade turbine (PBT) and A320 impeller. The impeller thickness was varied as 1, 2, 3 and 4 mm. The results showed that with the increase in impeller blade thickness, the critical impeller speed decreased significantly and the power required for complete suspension increased. Modifications are made in the Zwietering correlation by considering the effect of the impeller blade thickness to improve the prediction of critical impeller speed.http://pubs.ub.ro/?pg=revues&rev=cscc6&num=201704&vol=4&aid=4634the effect of impeller blade thickness on Njs required for complete suspension of solid particles was discussed. Experiments were performed in an agitated vessel of 0.29 m diameter with three impellers namely Rushton turbine (RT)Pitched blade turbine (PBT) and A320 impeller. The impeller thickness was varied as 123 and 4 mm. The results showed that with the increase in impeller blade thicknessthe critical impeller speed decreased significantly and the power required for complete suspension increased. Modifications are made in the Zwietering correlation by considering the effect of the impeller blade thickness to improve the prediction of critical impeller speed.agitated vesselaxial impellerimpeller blade thicknessminimum impeller speedradial impellersolid suspensionZwietering constant
collection DOAJ
language English
format Article
sources DOAJ
author LOGANATHAN MURUGANANDAM
DEVARAJULU CHITRA *
spellingShingle LOGANATHAN MURUGANANDAM
DEVARAJULU CHITRA *
EFFECT OF IMPELLER BLADE THICKNESS ON CRITICAL IMPELLER SPEED IN AN AGITATED VESSEL
Scientific Study & Research: Chemistry & Chemical Engineering, Biotechnology, Food Industry
the effect of impeller blade thickness on Njs required for complete suspension of solid particles was discussed. Experiments were performed in an agitated vessel of 0.29 m diameter with three impellers namely Rushton turbine (RT)
Pitched blade turbine (PBT) and A320 impeller. The impeller thickness was varied as 1
2
3 and 4 mm. The results showed that with the increase in impeller blade thickness
the critical impeller speed decreased significantly and the power required for complete suspension increased. Modifications are made in the Zwietering correlation by considering the effect of the impeller blade thickness to improve the prediction of critical impeller speed.
agitated vessel
axial impeller
impeller blade thickness
minimum impeller speed
radial impeller
solid suspension
Zwietering constant
author_facet LOGANATHAN MURUGANANDAM
DEVARAJULU CHITRA *
author_sort LOGANATHAN MURUGANANDAM
title EFFECT OF IMPELLER BLADE THICKNESS ON CRITICAL IMPELLER SPEED IN AN AGITATED VESSEL
title_short EFFECT OF IMPELLER BLADE THICKNESS ON CRITICAL IMPELLER SPEED IN AN AGITATED VESSEL
title_full EFFECT OF IMPELLER BLADE THICKNESS ON CRITICAL IMPELLER SPEED IN AN AGITATED VESSEL
title_fullStr EFFECT OF IMPELLER BLADE THICKNESS ON CRITICAL IMPELLER SPEED IN AN AGITATED VESSEL
title_full_unstemmed EFFECT OF IMPELLER BLADE THICKNESS ON CRITICAL IMPELLER SPEED IN AN AGITATED VESSEL
title_sort effect of impeller blade thickness on critical impeller speed in an agitated vessel
publisher Alma Mater Publishing House "Vasile Alecsandri" University of Bacau
series Scientific Study & Research: Chemistry & Chemical Engineering, Biotechnology, Food Industry
issn 1582-540X
1582-540X
publishDate 2017-12-01
description The successful design and operation of solid-liquid agitators require proper prediction of critical impeller speed (Njs) needed to suspend solids. It depends on system and impeller geometry as well as the properties of both solid and liquid. In this research, the effect of impeller blade thickness on Njs required for complete suspension of solid particles was discussed. Experiments were performed in an agitated vessel of 0.29 m diameter with three impellers namely Rushton turbine (RT), Pitched blade turbine (PBT) and A320 impeller. The impeller thickness was varied as 1, 2, 3 and 4 mm. The results showed that with the increase in impeller blade thickness, the critical impeller speed decreased significantly and the power required for complete suspension increased. Modifications are made in the Zwietering correlation by considering the effect of the impeller blade thickness to improve the prediction of critical impeller speed.
topic the effect of impeller blade thickness on Njs required for complete suspension of solid particles was discussed. Experiments were performed in an agitated vessel of 0.29 m diameter with three impellers namely Rushton turbine (RT)
Pitched blade turbine (PBT) and A320 impeller. The impeller thickness was varied as 1
2
3 and 4 mm. The results showed that with the increase in impeller blade thickness
the critical impeller speed decreased significantly and the power required for complete suspension increased. Modifications are made in the Zwietering correlation by considering the effect of the impeller blade thickness to improve the prediction of critical impeller speed.
agitated vessel
axial impeller
impeller blade thickness
minimum impeller speed
radial impeller
solid suspension
Zwietering constant
url http://pubs.ub.ro/?pg=revues&rev=cscc6&num=201704&vol=4&aid=4634
work_keys_str_mv AT loganathanmuruganandam effectofimpellerbladethicknessoncriticalimpellerspeedinanagitatedvessel
AT devarajuluchitra effectofimpellerbladethicknessoncriticalimpellerspeedinanagitatedvessel
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