Characterization of aerosols emissions from the combustion of dead shrub twigs and leaves using a cone calorimeter

Characterization of aerosols emissions from the combustion of dead shrub twigs and leaves using a cone calorimeter

This work is a contribution to the understanding of wildfire smoke emissions. It focuses on the characterization of aerosols emitted by the combustion of dead shrub leaves and twigs with different thickness (range of 0.75–20mm). The experiments were carried out at bench scale with a cone calorimeter...

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Bibliographic Details
Published in:Fire safety journal Vol. 91; pp. 800 - 810
Main Authors: Leonelli, Lara, Barboni, Toussaint, Santoni, Paul Antoine, Quilichini, Yann, Coppalle, Alexis
Format: Journal Article
Language:English
Published: Lausanne Elsevier Ltd 01-07-2017
Elsevier BV
Elsevier
Subjects:
Aerosols
Alveoli
Analytical chemistry
Atmospheric aerosols
Black carbon
Burning
Carcinogens
Combustion
Cone calorimeter
Electron microscopy
Emissions
Fluid mechanics
Forest & brush fires
Gas chromatography
Heat flux
Heat release rate
Heat transfer
Heating
Ignition
Leaves
Mass spectrometry
Mass spectroscopy
Mechanics
Organic carbon
Particle physics
Physics
Scanning electron microscopy
Smoke
Studies
Transmission electron microscopy
Wildfire smoke
Wildfires
Analytical chemistry
Heat release rate
Wildfire smoke
Aerosols
Cone calorimeter
Electron microscopy
PM
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Summary:This work is a contribution to the understanding of wildfire smoke emissions. It focuses on the characterization of aerosols emitted by the combustion of dead shrub leaves and twigs with different thickness (range of 0.75–20mm). The experiments were carried out at bench scale with a cone calorimeter for the burning of Cistus monspeliensis leaves and twigs. Auto-ignition of the samples was obtained by heating their surface with a radiant heat flux of 50kW/m2. The smoke and aerosols emitted before ignition during pre-heating were analysed separately from the smoke and aerosols emitted during the flaming phase. Heat release rate (HRR) was also measured and we observed two different behaviours depending on the diameter of the twigs. Fuel samples with diameter smaller than 4mm exhibit a single peak HRR whereas two peaks were observed for the twigs with larger diameters. The smoke production rate (SPR) was also measured and it showed that smoke was mainly emitted during the pre-heating phase. We also obtained a strong correlation between HRR and SPR during the flaming phase but no smoke was emitted during the glowing phase. Emission factors of aerosols were calculated depending on these combustion phases (pre-ignition and flaming) and for the range of thickness of the samples. The observations of the aerosols were performed by scanning electron microscopy (SEM) and transmission electron microscopy (TEM). The chemical composition of organic carbon (OC) aerosols, emitted during the pre-ignition phase, were analysed using gas chromatography (GC) coupled with mass spectrometry (MS). Some carcinogenic compounds were identified. The sizes of OC and black carbon (BC) aerosols emitted were measured with an optical device. Most of the BC were PM0.3, which corresponds to the alveolar fraction of particles.
ISSN:0379-7112
1873-7226
DOI:10.1016/j.firesaf.2017.03.048