Drop formation at submerged nozzles: Comparison of aqueous dispersed and organic dispersed cases for TBP-dodecane and nitric acid system

Drop formation at submerged nozzles: Comparison of aqueous dispersed and organic dispersed cases for TBP-dodecane and nitric acid system

Understanding the phenomena of formation of single drops is necessary to understand the hydrodynamics in solvent extraction equipment which are used for separation of nuclear materials. In this work, the phenomena of aqueous phase and organic phase drop formation at submerged nozzles are compared by...

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Main Authors: Amitava Roy, Mayur Darekar, K.K. Singh, K.T. Shenoy
Format: Article
Language:English
Published: Elsevier 2019-06-01
Series:Nuclear Engineering and Technology
Online Access:http://www.sciencedirect.com/science/article/pii/S1738573318305230
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spelling doaj-546594bfc52f40979d7470559a8032b52020-11-25T01:31:39ZengElsevierNuclear Engineering and Technology1738-57332019-06-01513761768Drop formation at submerged nozzles: Comparison of aqueous dispersed and organic dispersed cases for TBP-dodecane and nitric acid systemAmitava Roy0Mayur Darekar1K.K. Singh2K.T. Shenoy3Homi Bhabha National Institute, Anushaktinagar, Mumbai, 400094, India; Corresponding author.Chemical Engineering Division, Bhabha Atomic Research Centre, Mumbai, 400085, IndiaHomi Bhabha National Institute, Anushaktinagar, Mumbai, 400094, India; Chemical Engineering Division, Bhabha Atomic Research Centre, Mumbai, 400085, India; Corresponding author. Homi Bhabha National Institute, Anushaktinagar, Mumbai, 400094, India.Chemical Engineering Division, Bhabha Atomic Research Centre, Mumbai, 400085, IndiaUnderstanding the phenomena of formation of single drops is necessary to understand the hydrodynamics in solvent extraction equipment which are used for separation of nuclear materials. In this work, the phenomena of aqueous phase and organic phase drop formation at submerged nozzles are compared by conducting experiments with 30%TBP (v/v) in dodecane as the organic phase and nitric acid as the aqueous phase. Two different nozzles and three different nitric acid concentrations are used. For each nozzle and nitric acid concentration, velocity of the dispersed phase is varied. Drops of aqueous phase formed at downward oriented nozzles submerged in organic phase are observed to be smaller than the drops of organic phase formed at upward oriented nozzles submerged in aqueous phase. Correlations to estimate drop diameter are proposed. Keywords: Dodecane, Drop formation, Nozzle, Nuclear fuel cycle, Solvent extraction, TBPhttp://www.sciencedirect.com/science/article/pii/S1738573318305230
collection DOAJ
language English
format Article
sources DOAJ
author Amitava Roy
Mayur Darekar
K.K. Singh
K.T. Shenoy
spellingShingle Amitava Roy
Mayur Darekar
K.K. Singh
K.T. Shenoy
Drop formation at submerged nozzles: Comparison of aqueous dispersed and organic dispersed cases for TBP-dodecane and nitric acid system
Nuclear Engineering and Technology
author_facet Amitava Roy
Mayur Darekar
K.K. Singh
K.T. Shenoy
author_sort Amitava Roy
title Drop formation at submerged nozzles: Comparison of aqueous dispersed and organic dispersed cases for TBP-dodecane and nitric acid system
title_short Drop formation at submerged nozzles: Comparison of aqueous dispersed and organic dispersed cases for TBP-dodecane and nitric acid system
title_full Drop formation at submerged nozzles: Comparison of aqueous dispersed and organic dispersed cases for TBP-dodecane and nitric acid system
title_fullStr Drop formation at submerged nozzles: Comparison of aqueous dispersed and organic dispersed cases for TBP-dodecane and nitric acid system
title_full_unstemmed Drop formation at submerged nozzles: Comparison of aqueous dispersed and organic dispersed cases for TBP-dodecane and nitric acid system
title_sort drop formation at submerged nozzles: comparison of aqueous dispersed and organic dispersed cases for tbp-dodecane and nitric acid system
publisher Elsevier
series Nuclear Engineering and Technology
issn 1738-5733
publishDate 2019-06-01
description Understanding the phenomena of formation of single drops is necessary to understand the hydrodynamics in solvent extraction equipment which are used for separation of nuclear materials. In this work, the phenomena of aqueous phase and organic phase drop formation at submerged nozzles are compared by conducting experiments with 30%TBP (v/v) in dodecane as the organic phase and nitric acid as the aqueous phase. Two different nozzles and three different nitric acid concentrations are used. For each nozzle and nitric acid concentration, velocity of the dispersed phase is varied. Drops of aqueous phase formed at downward oriented nozzles submerged in organic phase are observed to be smaller than the drops of organic phase formed at upward oriented nozzles submerged in aqueous phase. Correlations to estimate drop diameter are proposed. Keywords: Dodecane, Drop formation, Nozzle, Nuclear fuel cycle, Solvent extraction, TBP
url http://www.sciencedirect.com/science/article/pii/S1738573318305230
work_keys_str_mv AT amitavaroy dropformationatsubmergednozzlescomparisonofaqueousdispersedandorganicdispersedcasesfortbpdodecaneandnitricacidsystem
AT mayurdarekar dropformationatsubmergednozzlescomparisonofaqueousdispersedandorganicdispersedcasesfortbpdodecaneandnitricacidsystem
AT kksingh dropformationatsubmergednozzlescomparisonofaqueousdispersedandorganicdispersedcasesfortbpdodecaneandnitricacidsystem
AT ktshenoy dropformationatsubmergednozzlescomparisonofaqueousdispersedandorganicdispersedcasesfortbpdodecaneandnitricacidsystem
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