Settling Behavior and CFD Simulation of a Gravity Separator

Steinhoff, Jan; Bart, Hans-Jörg

doi:10.1007/978-3-319-95022-8_166

Jan Steinhoff³¹ &
Hans-Jörg Bart³¹

Part of the book series: The Minerals, Metals & Materials Series ((MMMS))

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Abstract

The design options of a gravity separator are still limited and rely on the study of settling behavior . A methodology will be presented where an experimentally given inlet droplet size distribution (DSD) is the basis for the calculation of the dispersion layer in a gravity separator . A pilot-scale continuous gravity separator is presented and CFD (computational fluid dynamic) results are validated. A transmitted light measurement technique for the determination of the DSD is presented up to a holdup of 15% dispersed phase. The resulting DSD was in the range of 20–2000 µm depending on flow rate and phase ratio. Furthermore, correlations of the real DSD with the settling behavior of the dispersion in a settling cell are discussed. The new approach to the description of gravity separators will be presented and the applied CFD methods showed good results with the system water/paraffin.

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References

Bart H-J et al (2006) Vom Einzeltropfen zur Extraktionskolonne. Chem Eng Tech 78(5):543–547
CAS Google Scholar
Henschke M et al (2002) Determination of a coalescence parameter from batch-settling experiments. Chem Eng J 85(2–3):369–378
Article CAS Google Scholar
Pillhofer T, Mewes D (1979) Siebboden-Extraktionskolonnen: Vorausberechnung unpulsierter Kolonnen. Verlag Chemie, Weinheim
Google Scholar
Simmons M, Azzopardi BJ (2001) Drop size distributions in dispersed liquid–liquid pipe flow. ‎Int J Multiph Flow 27(5):843–859
Article CAS Google Scholar
Coulaloglou CA, Tavlarides LL (1976) Drop size distributions and coalescence frequencies of liquid-liquid dispersions in flow vessels. AIChE J 22(2):289–297
Article CAS Google Scholar
Schiller L, Naumann Z (1935) A drag coefficient correlation. Z Ver Deutsch Ing 77:318–320
Google Scholar

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Acknowledgements

The authors gratefully acknowledge the Federal Ministry of Economics and Energy (BMWi) for the financial support and the partners in the joint project ERICAA (03ET1391F, http://bit.ly/2FTZAog).

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Authors and Affiliations

Chair of Separation Science and Technology, TU Kaiserslautern, 67663, Kaiserslautern, Germany
Jan Steinhoff & Hans-Jörg Bart

Authors

Jan Steinhoff
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Hans-Jörg Bart
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Corresponding author

Correspondence to Hans-Jörg Bart .

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Editors and Affiliations

Kingston Process Metallurgy Inc., Kingston, Canada
Boyd R. Davis
Missouri University of Science and Technology, Rolla, USA
Michael S. Moats
Rio Tinto Kennecott Utah Copper Corporation, South Jordan, USA
Shijie Wang
RHI Magnesita, Leoben, Austria
Dean Gregurek
BBA Inc., Montreal, Canada
Joël Kapusta
Extractive Metallurgy Consultant, Kingston, Canada
Thomas P. Battle
Missouri University of Science and Technology, Rolla, USA
Mark E. Schlesinger
Aurubis, Hamburg, Germany
Gerardo Raul Alvear Flores
University of Queensland, Queensland, Australia
Evgueni Jak
XPS-Glencore, Falconbridge, Canada
Graeme Goodall
University of Utah, Salt Lake City, USA
Michael L. Free
University of British Columbia, Vancouver, Canada
Edouard Asselin
University of Lorraine, Vandœuvre-lès-Nancy, France
Alexandre Chagnes
University of British Columbia, Vancouver, Canada
David Dreisinger
Newmont Mining, Elko, USA
Matthew Jeffrey
University of Arizona, Tucson, USA
Jaeheon Lee
Miller Metallurgical Services Pty Ltd., Brisbane, Australia
Graeme Miller
University of Cape Town, Rondebosch, Australia
Jochen Petersen
Universidade Federal de Minas Gerais, Belo Horizonte, Brazil
Virginia S. T. Ciminelli
Shanghai University, Shanghai, China
Qian Xu
MetNetH20 Inc., Peterborough, Canada
Ronald Molnar
Hatch, Mississauga, Canada
Jeff Adams
University of British Columbia, Vancouver, Canada
Wenying Liu
SGS Minerals, Lakefield, Canada
Niels Verbaan
J.R. Goode and Associates Metallurgical Consulting, Toronto, Canada
John Goode
Avalon Rare Metals Inc., Toronto, Canada
Ian M. London
University of Toronto, Toronto, Canada
Gisele Azimi
SGS Minerals, Lakefield, Canada
Alex Forstner
Newmont Mining, Greenwood Village, USA
Ronel Kappes
Newmont Mining Corporation, Greenwood village, USA
Tarun Bhambhani

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Steinhoff, J., Bart, HJ. (2018). Settling Behavior and CFD Simulation of a Gravity Separator. In: Davis, B., et al. Extraction 2018. The Minerals, Metals & Materials Series. Springer, Cham. https://doi.org/10.1007/978-3-319-95022-8_166

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DOI: https://doi.org/10.1007/978-3-319-95022-8_166
Published: 19 August 2018
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-95021-1
Online ISBN: 978-3-319-95022-8
eBook Packages: Chemistry and Materials ScienceChemistry and Material Science (R0)

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