Suspension of a Single Sphere in a Stirred Tank with Transitional Flow

Jianghao  Wang; Fenglei Huang; Kun Zhang; Chao Wang; Zhipeng Li; Zhengming Gao; Jacobus Derksen

doi:10.1002/apj.2910

Suspension of a Single Sphere in a Stirred Tank with Transitional Flow

Jianghao Wang, Fenglei Huang, Kun Zhang, Chao Wang, Zhipeng Li^* (Corresponding Author), Zhengming Gao^* (Corresponding Author), Jacobus Derksen

^*Corresponding author for this work

Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

The lift-off characteristics of a single spherical particle in a stirred tank with transitional flow generated by a Rushton impeller have been explored in detail by using image capturing and processing techniques. We found three kinds of typical particle suspension motions, namely, the lightest PMMA particle first moves upward from the bottom center of the tank to a certain height and then spirals up to the impeller, the heavier POM particle rises to a certain height vertically and then it spirals down to the tank bottom, the still heavier PTFE and glass particles jump at random when they are rolling irregularly on the tank bottom. The single-phase flow field of the stirred tank was measured by using 2D-PIV technique to address the mechanism of the particle lift-off. The random
distribution of the regions with larger liquid velocity closely above the tank bottom might be the reason why the PTFE and glass particles were lifted off randomly. As for the PMMA and POM particles being lifted from the bottom center and then stagnating at a certain height, the bulk flow dominates the particle suspension.

Original language	English
Article number	e2910
Journal	Asia-Pacific Journal of Chemical Engineering
Early online date	9 Apr 2023
DOIs	https://doi.org/10.1002/apj.2910
Publication status	E-pub ahead of print - 9 Apr 2023

Keywords

Stirred tank
Solid-liquid suspension
Transitional flow
PIV

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@article{2f86ce613c38480c80a53235c044ca12,

title = "Suspension of a Single Sphere in a Stirred Tank with Transitional Flow",

abstract = "The lift-off characteristics of a single spherical particle in a stirred tank with transitional flow generated by a Rushton impeller have been explored in detail by using image capturing and processing techniques. We found three kinds of typical particle suspension motions, namely, the lightest PMMA particle first moves upward from the bottom center of the tank to a certain height and then spirals up to the impeller, the heavier POM particle rises to a certain height vertically and then it spirals down to the tank bottom, the still heavier PTFE and glass particles jump at random when they are rolling irregularly on the tank bottom. The single-phase flow field of the stirred tank was measured by using 2D-PIV technique to address the mechanism of the particle lift-off. The randomdistribution of the regions with larger liquid velocity closely above the tank bottom might be the reason why the PTFE and glass particles were lifted off randomly. As for the PMMA and POM particles being lifted from the bottom center and then stagnating at a certain height, the bulk flow dominates the particle suspension.",

keywords = "Stirred tank, Solid-liquid suspension, Transitional flow, PIV",

author = "Jianghao Wang and Fenglei Huang and Kun Zhang and Chao Wang and Zhipeng Li and Zhengming Gao and Jacobus Derksen",

note = "ACKNOWLEDGEMENT The authors gratefully acknowledge the financial support from Scientific Research and Technology Development Projects of China National Petroleum Corporation (No.2020B-2512).",

year = "2023",

month = apr,

day = "9",

doi = "10.1002/apj.2910",

language = "English",

journal = "Asia-Pacific Journal of Chemical Engineering",

issn = "1932-2135",

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T1 - Suspension of a Single Sphere in a Stirred Tank with Transitional Flow

AU - Wang, Jianghao

AU - Huang, Fenglei

AU - Zhang, Kun

AU - Wang, Chao

AU - Li, Zhipeng

AU - Gao, Zhengming

AU - Derksen, Jacobus

N1 - ACKNOWLEDGEMENT The authors gratefully acknowledge the financial support from Scientific Research and Technology Development Projects of China National Petroleum Corporation (No.2020B-2512).

PY - 2023/4/9

Y1 - 2023/4/9

N2 - The lift-off characteristics of a single spherical particle in a stirred tank with transitional flow generated by a Rushton impeller have been explored in detail by using image capturing and processing techniques. We found three kinds of typical particle suspension motions, namely, the lightest PMMA particle first moves upward from the bottom center of the tank to a certain height and then spirals up to the impeller, the heavier POM particle rises to a certain height vertically and then it spirals down to the tank bottom, the still heavier PTFE and glass particles jump at random when they are rolling irregularly on the tank bottom. The single-phase flow field of the stirred tank was measured by using 2D-PIV technique to address the mechanism of the particle lift-off. The randomdistribution of the regions with larger liquid velocity closely above the tank bottom might be the reason why the PTFE and glass particles were lifted off randomly. As for the PMMA and POM particles being lifted from the bottom center and then stagnating at a certain height, the bulk flow dominates the particle suspension.

AB - The lift-off characteristics of a single spherical particle in a stirred tank with transitional flow generated by a Rushton impeller have been explored in detail by using image capturing and processing techniques. We found three kinds of typical particle suspension motions, namely, the lightest PMMA particle first moves upward from the bottom center of the tank to a certain height and then spirals up to the impeller, the heavier POM particle rises to a certain height vertically and then it spirals down to the tank bottom, the still heavier PTFE and glass particles jump at random when they are rolling irregularly on the tank bottom. The single-phase flow field of the stirred tank was measured by using 2D-PIV technique to address the mechanism of the particle lift-off. The randomdistribution of the regions with larger liquid velocity closely above the tank bottom might be the reason why the PTFE and glass particles were lifted off randomly. As for the PMMA and POM particles being lifted from the bottom center and then stagnating at a certain height, the bulk flow dominates the particle suspension.

KW - Stirred tank

KW - Solid-liquid suspension

KW - Transitional flow

KW - PIV

U2 - 10.1002/apj.2910

DO - 10.1002/apj.2910

M3 - Article

JO - Asia-Pacific Journal of Chemical Engineering

JF - Asia-Pacific Journal of Chemical Engineering

SN - 1932-2135

M1 - e2910

ER -

Suspension of a Single Sphere in a Stirred Tank with Transitional Flow

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Keywords

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