Experimental characterization of the size, shape and ash composition of solid particles from different biomasses and separated by elutriation

Biomass particles have a wide variety of size and shape, and their characterization is fundamental for energy generation design, production of biofuels, simulation, and sizing of processes involving two-phase flow, such as fluidized bed, fixed bed, and aerodynamic transport. In order to find design...

Full description

Saved in:
Bibliographic Details
Published in:Biomass & bioenergy 2023-05, Vol.172, p.106767, Article 106767
Main Authors: Ramirez-Quintero, Deyber A., Bizzo, Waldir A.
Format: Article
Language:English
Subjects:
aerodynamics
ash content
Bamboo
bamboos
biofuels
biomass
Biomass particles
cassava
Cassava waste
corrosion
Elutriation
energy
fluidized beds
image analysis
straw
Sugar cane bagasse
Sugar cane straw
sugarcane
sugarcane bagasse
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Biomass particles have a wide variety of size and shape, and their characterization is fundamental for energy generation design, production of biofuels, simulation, and sizing of processes involving two-phase flow, such as fluidized bed, fixed bed, and aerodynamic transport. In order to find design data for projects involving biomass, this study characterized sugarcane bagasse, sugarcane straw, bamboo, and cassava plant branches regarding size and shape, using two methods of particle separation: sieving and elutriation, in addition to image analysis. An experimental bench was built for the separation of biomass by elutriation. Each biomass was separated by sieving in the range 388 to 2360μm openings and drag velocities from 0.6 to 6 m/s. The size distribution (mass, major and minor axis length, area and volume) and the calculation of sphericity resulted in different patterns according to the method used: sieving or elutriation. Biomass portions of smaller physical size, or smaller aerodynamic size, concentrate a higher ash content than larger portions. However, some minerals, such as Fe, Si, and Cl, were more concentrated in larger particles, characteristic details that may be useful for controlling the composition of biomass ash to prevent corrosion or incrustation in thermal process equipment. •Elutriation separation technique better characterizes size and shape of biomass particles.•Correlations from the literature to estimate sphericity present great differences.•Image scanning allows determining particle sizes and shapes distribution.•Ash composition is not homogeneous in terms of particle size and shape.•Aerodynamic separation can be useful to control ash composition of biomass particles.
ISSN:0961-9534
1873-2909
DOI:10.1016/j.biombioe.2023.106767