Hydrodynamics of oil palm frond in a swirling fluidized bed dryer

Batcha, M.F.M. and Sulaiman, S.A. and Raghavan, V.R. (2012) Hydrodynamics of oil palm frond in a swirling fluidized bed dryer. Applied Mechanics and Materials, 117-11. pp. 1829-1833. ISSN 16609336

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Abstract

This paper presents the hydrodynamics of chopped oil palm fronds (OPF) from cold flow experiments carried out in a swirling fluidized bed dryer (SFBD). The chopped OPF was 10 - 15 mm in size and falls in between Geldart type B and D. The OPF which consisted of leaves and petiole (stem) were first separated before studied individually due to their different physical characteristics. 2 bed loadings of 120g and 140g were investigated for bed pressure drop, (�P b), minimum fluidization velocity (U mf) and minimum swirling velocity (U ms) while regimes of operation were closely observed. The experiments yield that the OPF leaves and petiole have distinct hydrodynamic behavior due to their different bulk densities and voidage, hence suggesting drying should also be conducted separately unlike the current industrial practice. The leaves have lower U mf and U ms compared to the petiole and thus swirling motion was initiated earlier in SFBD when operating with leaves. Both samples however, have limited operating velocities due to elutriation. In conclusion, the SFBD was found to fluidize the chopped OPF well while providing good solid-gas contact which is highly desired for drying. © (2012) Trans Tech Publications.

Item Type: Article
Additional Information: cited By 3; Conference of 2011 International Conference on Applied Mechanics, Materials and Manufacturing, ICAMMM 2011 ; Conference Date: 18 November 2011 Through 20 November 2011; Conference Code:87300
Uncontrolled Keywords: Bulk density; Cold flow experiments; Fluidized bed dryers; Hydrodynamic behavior; Industrial practices; Minimum fluidization velocity; Oil palm frond; Physical characteristics; Swirling fluidized bed dryer; Swirling motion; Swirling velocity; Voidage, Computational mechanics; Dryers (equipment); Experiments; Fluidization; Hydrodynamics; Pressure drop; Velocity, Fluidized beds
Depositing User: Mr Ahmad Suhairi UTP
Date Deposited: 09 Nov 2023 15:51
Last Modified: 09 Nov 2023 15:51
URI: https://khub.utp.edu.my/scholars/id/eprint/3233

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