Combustion characteristics of biomass briquettes

Combustion characteristics of biomass briquettes

Nearly half the worlds population is dependent on wood as their primary energy source. Therefore with deforestation becoming increasingly prevalent in many regions of the developing world, there is an urgent need to improve combustion efficiency of stoves or to find alternative fuels. Densification...

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Main Author: Chaney, Joel O.
Format: Thesis (University of Nottingham only)
Language:English
Published: 2010
Subjects:
biomass
briquettes
briquette
briquetting
biomass briquetting
biomass briquettes
biomass briquette
combustion
stoves
stove
pyrolysis
Ghana
fires
three stone fire
three stone fires
residue
crop residues
heat transfer
kinetic parameters
thermal parameters
energy use
woodfuel
briquetting machine
burning
burn
bananas
banana
rapeseed oil
sawdust
newspaper
densification
compression
densified
holey
holey briquette
central hole
moisture content
moisture
briquette size
shape
briquette shape
size
thermal conductivity
thermal diffusivity
diffusivity
density
pulping
drying
material
normalised burn rate
burn rate
burnrate
burn-rate
NBR
thermal properties
experiment
simulation
radiation
burning bananas
burning banana
dual pulse heat probe
heat probe
heat probe method
decomposition kinetics
kinetics
decomposition
thermal
devolatisation
degree of degredation
degredation
heat capacity
thermal properties of briquettes
Online Access:https://eprints.nottingham.ac.uk/11732/
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author Chaney, Joel O.
author_facet Chaney, Joel O.
author_sort Chaney, Joel O.
building Nottingham Research Data Repository
collection Online Access
description Nearly half the worlds population is dependent on wood as their primary energy source. Therefore with deforestation becoming increasingly prevalent in many regions of the developing world, there is an urgent need to improve combustion efficiency of stoves or to find alternative fuels. Densification of loose biomass residues into briquettes is a means of upgrading the feedstock material. Briquettes are easier to store, more convenient to use and burn at a more steady and controlled rate than loose biomass. This investigation focuses on understanding some of their combustion characteristics and the relationship to the briquette design and manufacture process. The social context of the work is presented through an informal case study considering the potential of briquetting in Ghana. The initial experimental work focuses on developing a process to manufacture newspaper briquettes of consistent quality at low-pressures using a wet technique, and a method to burn them in a controlled way is suggested. These techniques were used to carry out a study on rectangular slab-shaped briquettes, looking at the effect of process variables (density, moisture content and size) on briquette burn-rate. An analytical expression for the normalised burn-rate (NBR) of a briquette in free-air, in terms of these of these variables, was found by numerical fitting. The effect of shape on combustion was also experimentally investigated using cylindrical briquettes with a central hole (holey briquettes) burning in free-air and an analytical expression was derived for their burn rate. The NBR behaviour of sawdust briquettes, rapeseed oil residue briquettes as well as slabs of pine wood was then studied. Rapeseed oil residue has a very different calorific value from that of newspaper, and a method was suggested for predicting the difference in rate as a function of difference in calorific value. In the second phase of the work, a numerical model of pyrolysis was developed. The model assumed that heat transfer through the fuel limited the rate of pyrolysis. The thermal parameters (thermal conductivity, heat capacity and thermal diffusivity) were estimated using a heat probe method, and the kinetic parameters found by numerical optimization. The model was shown to predict, for newspaper briquettes, the experimentally observed size dependent behaviour of the normalised burn rate, and the trend observed for the effect of changes in density. The model was applied to predict the effect of changes in a briquettes thermal parameters on burn rate, and an analytical expression found by numerical fitting. This provides a means of estimating relative changes in burn rate due to changes in fuel properties, and forms the basis for a pyrolysis sub-model for use in stove optimisation. Such a model has the advantage of being able to vary key, easily quantifiable and easily controlled solid biomass briquette properties relative to the behaviour and properties of a well understood fuel such as wood. In the final part of the study, some of the limitations of the numerical model are explored by completing a sensitivity study investigating the relative effect of some of the key assumptions made.
first_indexed 2025-11-14T18:27:04Z
format Thesis (University of Nottingham only)
id nottingham-11732
institution University of Nottingham Malaysia Campus
institution_category Local University
language English
last_indexed 2025-11-14T18:27:04Z
publishDate 2010
recordtype eprints
repository_type Digital Repository
spelling nottingham-117322025-02-28T11:15:18Z https://eprints.nottingham.ac.uk/11732/ Combustion characteristics of biomass briquettes Chaney, Joel O. Nearly half the worlds population is dependent on wood as their primary energy source. Therefore with deforestation becoming increasingly prevalent in many regions of the developing world, there is an urgent need to improve combustion efficiency of stoves or to find alternative fuels. Densification of loose biomass residues into briquettes is a means of upgrading the feedstock material. Briquettes are easier to store, more convenient to use and burn at a more steady and controlled rate than loose biomass. This investigation focuses on understanding some of their combustion characteristics and the relationship to the briquette design and manufacture process. The social context of the work is presented through an informal case study considering the potential of briquetting in Ghana. The initial experimental work focuses on developing a process to manufacture newspaper briquettes of consistent quality at low-pressures using a wet technique, and a method to burn them in a controlled way is suggested. These techniques were used to carry out a study on rectangular slab-shaped briquettes, looking at the effect of process variables (density, moisture content and size) on briquette burn-rate. An analytical expression for the normalised burn-rate (NBR) of a briquette in free-air, in terms of these of these variables, was found by numerical fitting. The effect of shape on combustion was also experimentally investigated using cylindrical briquettes with a central hole (holey briquettes) burning in free-air and an analytical expression was derived for their burn rate. The NBR behaviour of sawdust briquettes, rapeseed oil residue briquettes as well as slabs of pine wood was then studied. Rapeseed oil residue has a very different calorific value from that of newspaper, and a method was suggested for predicting the difference in rate as a function of difference in calorific value. In the second phase of the work, a numerical model of pyrolysis was developed. The model assumed that heat transfer through the fuel limited the rate of pyrolysis. The thermal parameters (thermal conductivity, heat capacity and thermal diffusivity) were estimated using a heat probe method, and the kinetic parameters found by numerical optimization. The model was shown to predict, for newspaper briquettes, the experimentally observed size dependent behaviour of the normalised burn rate, and the trend observed for the effect of changes in density. The model was applied to predict the effect of changes in a briquettes thermal parameters on burn rate, and an analytical expression found by numerical fitting. This provides a means of estimating relative changes in burn rate due to changes in fuel properties, and forms the basis for a pyrolysis sub-model for use in stove optimisation. Such a model has the advantage of being able to vary key, easily quantifiable and easily controlled solid biomass briquette properties relative to the behaviour and properties of a well understood fuel such as wood. In the final part of the study, some of the limitations of the numerical model are explored by completing a sensitivity study investigating the relative effect of some of the key assumptions made. 2010-12-09 Thesis (University of Nottingham only) NonPeerReviewed application/pdf en arr https://eprints.nottingham.ac.uk/11732/1/Combustion_Characteristics_of_Biomass_Briquettes.pdf Chaney, Joel O. (2010) Combustion characteristics of biomass briquettes. PhD thesis, University of Nottingham. biomass briquettes briquette briquetting biomass briquetting biomass briquettes biomass briquette combustion stoves stove pyrolysis Ghana fires three stone fire three stone fires residue crop residues heat transfer kinetic parameters thermal parameters energy use woodfuel briquetting machine burning burn bananas banana rapeseed oil sawdust newspaper densification compression densified holey holey briquette central hole moisture content moisture briquette size shape briquette shape size thermal conductivity thermal diffusivity diffusivity density pulping drying material normalised burn rate burn rate burnrate burn-rate NBR thermal properties experiment simulation radiation burning bananas burning banana dual pulse heat probe heat probe heat probe method decomposition kinetics kinetics decomposition thermal devolatisation pyrolysis degree of degredation degredation heat capacity thermal properties of briquettes
spellingShingle biomass
briquettes
briquette
briquetting
biomass briquetting
biomass briquettes
biomass briquette
combustion
stoves
stove
pyrolysis
Ghana
fires
three stone fire
three stone fires
residue
crop residues
heat transfer
kinetic parameters
thermal parameters
energy use
woodfuel
briquetting machine
burning
burn
bananas
banana
rapeseed oil
sawdust
newspaper
densification
compression
densified
holey
holey briquette
central hole
moisture content
moisture
briquette size
shape
briquette shape
size
thermal conductivity
thermal diffusivity
diffusivity
density
pulping
drying
material
normalised burn rate
burn rate
burnrate
burn-rate
NBR
thermal properties
experiment
simulation
radiation
burning bananas
burning banana
dual pulse heat probe
heat probe
heat probe method
decomposition kinetics
kinetics
decomposition
thermal
devolatisation
pyrolysis
degree of degredation
degredation
heat capacity
thermal properties of briquettes
Chaney, Joel O.
Combustion characteristics of biomass briquettes
title Combustion characteristics of biomass briquettes
title_full Combustion characteristics of biomass briquettes
title_fullStr Combustion characteristics of biomass briquettes
title_full_unstemmed Combustion characteristics of biomass briquettes
title_short Combustion characteristics of biomass briquettes
title_sort combustion characteristics of biomass briquettes
topic biomass
briquettes
briquette
briquetting
biomass briquetting
biomass briquettes
biomass briquette
combustion
stoves
stove
pyrolysis
Ghana
fires
three stone fire
three stone fires
residue
crop residues
heat transfer
kinetic parameters
thermal parameters
energy use
woodfuel
briquetting machine
burning
burn
bananas
banana
rapeseed oil
sawdust
newspaper
densification
compression
densified
holey
holey briquette
central hole
moisture content
moisture
briquette size
shape
briquette shape
size
thermal conductivity
thermal diffusivity
diffusivity
density
pulping
drying
material
normalised burn rate
burn rate
burnrate
burn-rate
NBR
thermal properties
experiment
simulation
radiation
burning bananas
burning banana
dual pulse heat probe
heat probe
heat probe method
decomposition kinetics
kinetics
decomposition
thermal
devolatisation
pyrolysis
degree of degredation
degredation
heat capacity
thermal properties of briquettes
url https://eprints.nottingham.ac.uk/11732/

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