The role of particle size and other properties on silo discharge behaviour of chipped wood biomass

The role of particle size and other properties on silo discharge behaviour of chipped wood biomass

To achieve net-zero carbon emissions by 2050, the UK government emphasizes the pivotal role of sustainable bioenergy in electricity, transportation, and heating. However, challenges persist in handling biomass particulate solids in production facilities, leading to economic impacts. This study inves...

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Veröffentlicht in:Powder technology 2024, Vol.432, p.119174, Article 119174
Hauptverfasser: Salehi, Hamid, Timmerfors, Jessica Gard, Hajmohammadi, Hajar, Garg, Vivek, Berry, Robert J., Barletta, Diego, Poletto, Massimo, Jönsson, Leif J., Bradley, Michael S.A., Larsson, Sylvia H.
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Sprache:eng
Schlagworte:
Annan kemiteknik
biomass
bulk density
carbon
Chipping method
electricity
friction
Other Chemical Engineering
particle size
Particulate material handling
renewable energy sources
Shear tester
Silo design
silos
Statistical analysis
stemwood
transportation
trees
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container_end_page
container_issue
container_start_page 119174
container_title Powder technology
container_volume 432
creator Salehi, Hamid
Timmerfors, Jessica Gard
Hajmohammadi, Hajar
Garg, Vivek
Berry, Robert J.
Barletta, Diego
Poletto, Massimo
Jönsson, Leif J.
Bradley, Michael S.A.
Larsson, Sylvia H.
description To achieve net-zero carbon emissions by 2050, the UK government emphasizes the pivotal role of sustainable bioenergy in electricity, transportation, and heating. However, challenges persist in handling biomass particulate solids in production facilities, leading to economic impacts. This study investigates the flow characteristics of stemwood chips from four tree species using a novel drum chipper. Experimental analyses include bulk density measurements, silo discharge studies, biomass flow property assessments, and wall friction measurements. Comparative analyses are performed using Jenike's procedure for building wedge-shaped silos, with a focus on predicting the critical opening size to prevent arching. Additionally, the paper delves into the creation of statistical models aimed at identifying key factors influencing the flow behaviour during silo discharge. Emphasis is placed on understanding potential discrepancies between theoretical predictions and experimental results concerning critical silo openings for arch-free discharge. The results contribute to understanding the factors influencing the flow behaviour of wood chips, informing silo design considerations. Our findings suggest limitations in applying traditional silo design methods, urging further research for more accurate predictions. [Display omitted] •A novel drum chipper was utilised to generate wood chips from several tree species.•Wood chips' flow characteristics were tested with a biomass-specific shear tester.•Critical arching conditions were experimentally measured with a wedge-shaped hopper.•Based on statistical model, chips property cause Jenike and experiment disparities.
doi_str_mv 10.1016/j.powtec.2023.119174
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source Elsevier ScienceDirect Journals Complete; SWEPUB Freely available online
subjects Annan kemiteknik
biomass
bulk density
carbon
Chipping method
electricity
friction
Other Chemical Engineering
particle size
Particulate material handling
renewable energy sources
Shear tester
Silo design
silos
Statistical analysis
stemwood
transportation
trees
title The role of particle size and other properties on silo discharge behaviour of chipped wood biomass
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