Experimental study on vibrating fluidized bed solids drying

M.J.A.  de Munck; E.A.J.F. Peters; J.A.M. Kuipers

doi:10.1016/j.cej.2023.144809

Experimental study on vibrating fluidized bed solids drying

M.J.A. de Munck, E.A.J.F. Peters (Corresponding author), J.A.M. Kuipers

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Abstract

Enhancing the gas–solid contacting inside a fluidized bed leads to improved solids drying characteristics. This can be achieved by mechanical vibration, resulting in so-called vibro-fluidized beds. In this study, experiments in a pseudo-2D vibro-fluidized bed setup are performed in order to better understand this improved drying behavior. A coupled particle image velocimetry - infrared thermography technique is applied to characterize the local solids velocity and temperature fields. The added vibration results in a significantly increased solids drying rate compared to a traditional gas-fluidized bed due to enhanced meso-scale particle agitation. Furthermore, it is shown that the gas-bubble appearance and the particle temperature standard deviation are highly dependent on the applied vibration amplitude and frequency.

Original language	English
Article number	144809
Number of pages	14
Journal	Chemical Engineering Journal
Volume	472
DOIs	https://doi.org/10.1016/j.cej.2023.144809
Publication status	Published - 15 Sept 2023

Funding

This research received funding from the Dutch Research Council (NWO) in the framework of the ENW PPP Fund for the top sectors and from the Ministry of Economic Affairs in the framework of the “PPS-toeslagregeling” . We would like to thank Marlieke Breijer-Pepels, Hans Meerman and Henk Jan Panneman for the fruitful discussions and Joop Aarts, Herbert Fiedler and Larry de Graaf for their valuable technical support.

Funders	Funder number
Ministerie van Economische Zaken en Klimaat
Nederlandse Organisatie voor Wetenschappelijk Onderzoek

Keywords

Infrared thermography
Particle image velocimetry
Particle temperature distribution
Solids volume fluxes
Vibrating fluidized bed drying

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10.1016/j.cej.2023.144809

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Cite this

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title = "Experimental study on vibrating fluidized bed solids drying",

abstract = "Enhancing the gas–solid contacting inside a fluidized bed leads to improved solids drying characteristics. This can be achieved by mechanical vibration, resulting in so-called vibro-fluidized beds. In this study, experiments in a pseudo-2D vibro-fluidized bed setup are performed in order to better understand this improved drying behavior. A coupled particle image velocimetry - infrared thermography technique is applied to characterize the local solids velocity and temperature fields. The added vibration results in a significantly increased solids drying rate compared to a traditional gas-fluidized bed due to enhanced meso-scale particle agitation. Furthermore, it is shown that the gas-bubble appearance and the particle temperature standard deviation are highly dependent on the applied vibration amplitude and frequency.",

keywords = "Vibrating fluidized bed drying, Particle image velocimetry, Infrared thermography, Particle temperature distribution, Solids volume fluxes, Infrared thermography, Particle image velocimetry, Particle temperature distribution, Solids volume fluxes, Vibrating fluidized bed drying",

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year = "2023",

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N2 - Enhancing the gas–solid contacting inside a fluidized bed leads to improved solids drying characteristics. This can be achieved by mechanical vibration, resulting in so-called vibro-fluidized beds. In this study, experiments in a pseudo-2D vibro-fluidized bed setup are performed in order to better understand this improved drying behavior. A coupled particle image velocimetry - infrared thermography technique is applied to characterize the local solids velocity and temperature fields. The added vibration results in a significantly increased solids drying rate compared to a traditional gas-fluidized bed due to enhanced meso-scale particle agitation. Furthermore, it is shown that the gas-bubble appearance and the particle temperature standard deviation are highly dependent on the applied vibration amplitude and frequency.

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Experimental study on vibrating fluidized bed solids drying

Abstract

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Keywords

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Experimental study on vibrating fluidized bed solids drying

Abstract

Funding

Keywords

Access to Document

Other files and links

Fingerprint

Datasets

Matlab fig files for the article: Experimental study on vibrating fluidized bed solids drying

Cite this