Experimental measurement of particle size effects on the self-heating ignition of biomass piles: Homogeneous samples of dust and pellets

Experimental measurement of particle size effects on the self-heating ignition of biomass piles: Homogeneous samples of dust and pellets

•Frank-Kamenetskii theory is used to study particle size behaviour of wheat biomass.•Wheat biomass particle size doesn’t bring large change in self-heating behaviour.•First self-heating study of homogeneous biomass particle size piles.•The wheat pellets can self-ignite at pile heights of 11 m at 40 ...

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Veröffentlicht in:Fuel (Guildford) 2019-11, Vol.256, p.115838, Article 115838
Hauptverfasser: Restuccia, Francesco, Fernandez-Anez, Nieves, Rein, Guillermo
Format: Artikel
Sprache:eng
Schlagworte:
Biomass
Dust
Electric power generation
Frank-Kamenetskii theory
Heating
Ignition
Particle size
Particle size effects
Pellets
Self-heating ignition
Size effects
Thin films
Wheat
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creator Restuccia, Francesco
Fernandez-Anez, Nieves
Rein, Guillermo
description •Frank-Kamenetskii theory is used to study particle size behaviour of wheat biomass.•Wheat biomass particle size doesn’t bring large change in self-heating behaviour.•First self-heating study of homogeneous biomass particle size piles.•The wheat pellets can self-ignite at pile heights of 11 m at 40 °C. Biomass can become an important fuel source for future power generation worldwide. However biomass piles are prone to self-heating and can lead to fire. When storing and transporting biomass, it is usually in the form of pellets which vary in diameter but are on average around 7 mm. However, pellets tend to break up into smaller particles and into dust down to the μm size. For self-heating, size of particles is known to matter in thin layers but the topic is poorly studied for biomass piles. This work presents an experimental study on the self-heating ignition behaviour of different particle sizes of wheat biomass. We study for the first time homogeneous samples from the dust scale to pellet diameter size, ranging from diameters of 300 μm to 6.5 mm. Experiments are done in an isothermal oven to find minimum ignition temperatures as a function of sample volume. The results are analysed using Frank-Kamenetskii theory. For the homogeneous biomass samples studied, we show that particle diameter variation does not bring a large change in self-heating ignition behaviour. The present work quantifies the size effects on biomass ignition and helps address the safety problems of biomass.
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Biomass can become an important fuel source for future power generation worldwide. However biomass piles are prone to self-heating and can lead to fire. When storing and transporting biomass, it is usually in the form of pellets which vary in diameter but are on average around 7 mm. However, pellets tend to break up into smaller particles and into dust down to the μm size. For self-heating, size of particles is known to matter in thin layers but the topic is poorly studied for biomass piles. This work presents an experimental study on the self-heating ignition behaviour of different particle sizes of wheat biomass. We study for the first time homogeneous samples from the dust scale to pellet diameter size, ranging from diameters of 300 μm to 6.5 mm. Experiments are done in an isothermal oven to find minimum ignition temperatures as a function of sample volume. The results are analysed using Frank-Kamenetskii theory. 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Biomass can become an important fuel source for future power generation worldwide. However biomass piles are prone to self-heating and can lead to fire. When storing and transporting biomass, it is usually in the form of pellets which vary in diameter but are on average around 7 mm. However, pellets tend to break up into smaller particles and into dust down to the μm size. For self-heating, size of particles is known to matter in thin layers but the topic is poorly studied for biomass piles. This work presents an experimental study on the self-heating ignition behaviour of different particle sizes of wheat biomass. We study for the first time homogeneous samples from the dust scale to pellet diameter size, ranging from diameters of 300 μm to 6.5 mm. Experiments are done in an isothermal oven to find minimum ignition temperatures as a function of sample volume. The results are analysed using Frank-Kamenetskii theory. 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subjects Biomass
Dust
Electric power generation
Frank-Kamenetskii theory
Heating
Ignition
Particle size
Particle size effects
Pellets
Self-heating ignition
Size effects
Thin films
Wheat
title Experimental measurement of particle size effects on the self-heating ignition of biomass piles: Homogeneous samples of dust and pellets
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