Modeling of drop sedimentation in liquid-liquid phase separation

Bhumphong Rajcharak; Jan Bernd Bol; Pornprapa Bol; Tawiwan Kangsadan; Matthäus Siebenhofer

doi:10.3217/978-3-85125-456-3

Modeling of drop sedimentation in liquid-liquid phase separation

Bhumphong Rajcharak, Jan Bernd Bol, Pornprapa Bol, Tawiwan Kangsadan, Matthäus Siebenhofer

Institut für Chemische Verfahrenstechnik und Umwelttechnik (6670)

Publikation: Beitrag in Buch/Bericht/Konferenzband › Beitrag in einem Konferenzband › Begutachtung

Abstract

In the chemical industry, liquid-liquid dispersions are often separated with settlers. During separation a sedimentation curve and a coalescence curve can be detected. Both curves show a characteristic, seemingly a sigmoidal S-shape curve. The settling curves can be fitted well with modified sigmoidal equations. Constants obtained from experimental data and target model were compared with the system’s physical properties. Factors to scale the sedimentation velocity seem to be linear changing with density and viscosity of the aqueous phase, while the factor to scale the separation time is converse. Moreover, this
work also proves, that sedimentation of large droplets deviates from rigid article settling due to oscillating phenomena, while small drop behave similar to particles.

Originalsprache	englisch
Titel	Conference Proceedings of the 12th Minisymposium Verfahrenstechnik
Redakteure/-innen	Ulrich Hirn
Erscheinungsort	Graz
Herausgeber (Verlag)	Verlag der Technischen Universität Graz
Seiten	207-211
ISBN (elektronisch)	978-3-85125-456-3
DOIs	https://doi.org/10.3217/978-3-85125-456-3
Publikationsstatus	Veröffentlicht - 30 März 2016

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10.3217/978-3-85125-456-3

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Modeling of drop sedimentation in liquid-liquid phase separation. / Rajcharak, Bhumphong; Bol, Jan Bernd; Bol, Pornprapa et al.
Conference Proceedings of the 12th Minisymposium Verfahrenstechnik. Hrsg. / Ulrich Hirn. Graz: Verlag der Technischen Universität Graz, 2016. S. 207-211.

Publikation: Beitrag in Buch/Bericht/Konferenzband › Beitrag in einem Konferenzband › Begutachtung

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title = "Modeling of drop sedimentation in liquid-liquid phase separation",

abstract = "In the chemical industry, liquid-liquid dispersions are often separated with settlers. During separation a sedimentation curve and a coalescence curve can be detected. Both curves show a characteristic, seemingly a sigmoidal S-shape curve. The settling curves can be fitted well with modified sigmoidal equations. Constants obtained from experimental data and target model were compared with the system{\textquoteright}s physical properties. Factors to scale the sedimentation velocity seem to be linear changing with density and viscosity of the aqueous phase, while the factor to scale the separation time is converse. Moreover, this work also proves, that sedimentation of large droplets deviates from rigid article settling due to oscillating phenomena, while small drop behave similar to particles. ",

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AU - Bol, Pornprapa

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AU - Siebenhofer, Matthäus

PY - 2016/3/30

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N2 - In the chemical industry, liquid-liquid dispersions are often separated with settlers. During separation a sedimentation curve and a coalescence curve can be detected. Both curves show a characteristic, seemingly a sigmoidal S-shape curve. The settling curves can be fitted well with modified sigmoidal equations. Constants obtained from experimental data and target model were compared with the system’s physical properties. Factors to scale the sedimentation velocity seem to be linear changing with density and viscosity of the aqueous phase, while the factor to scale the separation time is converse. Moreover, this work also proves, that sedimentation of large droplets deviates from rigid article settling due to oscillating phenomena, while small drop behave similar to particles.

AB - In the chemical industry, liquid-liquid dispersions are often separated with settlers. During separation a sedimentation curve and a coalescence curve can be detected. Both curves show a characteristic, seemingly a sigmoidal S-shape curve. The settling curves can be fitted well with modified sigmoidal equations. Constants obtained from experimental data and target model were compared with the system’s physical properties. Factors to scale the sedimentation velocity seem to be linear changing with density and viscosity of the aqueous phase, while the factor to scale the separation time is converse. Moreover, this work also proves, that sedimentation of large droplets deviates from rigid article settling due to oscillating phenomena, while small drop behave similar to particles.

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BT - Conference Proceedings of the 12th Minisymposium Verfahrenstechnik

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PB - Verlag der Technischen Universität Graz

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Modeling of drop sedimentation in liquid-liquid phase separation

Abstract

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