High-temperature thermal destruction of poultry derived wastes for energy recovery in Australia

The high-temperature thermal destruction of poultry derived wastes (e.g., manure and bedding) for energy recovery is viable in Australia when considering resource availability and equivalent commercial-scale experience in the UK. In this work, we identified and examined the opportunities and risks a...

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Published inWaste management (Elmsford) Vol. 29; no. 4; pp. 1399 - 1408
Main Authors Florin, N.H., Maddocks, A.R., Wood, S., Harris, A.T.
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier Ltd 01.04.2009
Elsevier
Subjects
Animals
Applied sciences
Australia
Electricity
Energy-Generating Resources
Environment
Exact sciences and technology
Hot Temperature
Manure
Mass Spectrometry
Other wastes and particular components of wastes
Pollution
Poultry
Power Plants - economics
Thermodynamics
Waste Products - analysis
Wastes
United Kingdom
Europe
Australia
British Isles
Nitrogen oxide
Power plant
Poultry manure
Thermogravimetry
Energy recovery
Combustion
Biomass
Farmyard manure
Pollutant emission
Modeling
Thermodynamic equilibrium
Hydrochloric acid
Environment impact
Gasification
Pollution abatement
Mass spectrometry
Public health
Online AccessGet full text
ISSN0956-053X
1879-2456
DOI10.1016/j.wasman.2008.10.002

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Abstract The high-temperature thermal destruction of poultry derived wastes (e.g., manure and bedding) for energy recovery is viable in Australia when considering resource availability and equivalent commercial-scale experience in the UK. In this work, we identified and examined the opportunities and risks associated with common thermal destruction techniques, including: volume of waste, costs, technological risks and environmental impacts. Typical poultry waste streams were characterised based on compositional analysis, thermodynamic equilibrium modelling and non-isothermal thermogravimetric analysis coupled with mass spectrometry (TG–MS). Poultry waste is highly variable but otherwise comparable with other biomass fuels. The major technical and operating challenges are associated with this variability in terms of: moisture content, presence of inorganic species and type of litter. This variability is subject to a range of parameters including: type and age of bird, and geographical and seasonal inconsistencies. There are environmental and health considerations associated with combustion and gasification due to the formation of: NO X , SO X , H 2S and HCl gas. Mitigation of these emissions is achievable through correct plant design and operation, however, with significant economic penalty. Based on our analysis and literature data, we present cost estimates for generic poultry-waste-fired power plants with throughputs of 2 and 8 tonnes/h.
AbstractList The high-temperature thermal destruction of poultry derived wastes (e.g., manure and bedding) for energy recovery is viable in Australia when considering resource availability and equivalent commercial-scale experience in the UK. In this work, we identified and examined the opportunities and risks associated with common thermal destruction techniques, including: volume of waste, costs, technological risks and environmental impacts. Typical poultry waste streams were characterised based on compositional analysis, thermodynamic equilibrium modelling and non-isothermal thermogravimetric analysis coupled with mass spectrometry (TG-MS). Poultry waste is highly variable but otherwise comparable with other biomass fuels. The major technical and operating challenges are associated with this variability in terms of: moisture content, presence of inorganic species and type of litter. This variability is subject to a range of parameters including: type and age of bird, and geographical and seasonal inconsistencies. There are environmental and health considerations associated with combustion and gasification due to the formation of: NO(X), SO(X), H(2)S and HCl gas. Mitigation of these emissions is achievable through correct plant design and operation, however, with significant economic penalty. Based on our analysis and literature data, we present cost estimates for generic poultry-waste-fired power plants with throughputs of 2 and 8 tonnes/h.The high-temperature thermal destruction of poultry derived wastes (e.g., manure and bedding) for energy recovery is viable in Australia when considering resource availability and equivalent commercial-scale experience in the UK. In this work, we identified and examined the opportunities and risks associated with common thermal destruction techniques, including: volume of waste, costs, technological risks and environmental impacts. Typical poultry waste streams were characterised based on compositional analysis, thermodynamic equilibrium modelling and non-isothermal thermogravimetric analysis coupled with mass spectrometry (TG-MS). Poultry waste is highly variable but otherwise comparable with other biomass fuels. The major technical and operating challenges are associated with this variability in terms of: moisture content, presence of inorganic species and type of litter. This variability is subject to a range of parameters including: type and age of bird, and geographical and seasonal inconsistencies. There are environmental and health considerations associated with combustion and gasification due to the formation of: NO(X), SO(X), H(2)S and HCl gas. Mitigation of these emissions is achievable through correct plant design and operation, however, with significant economic penalty. Based on our analysis and literature data, we present cost estimates for generic poultry-waste-fired power plants with throughputs of 2 and 8 tonnes/h.
The high-temperature thermal destruction of poultry derived wastes (e.g., manure and bedding) for energy recovery is viable in Australia when considering resource availability and equivalent commercial-scale experience in the UK. In this work, we identified and examined the opportunities and risks associated with common thermal destruction techniques, including: volume of waste, costs, technological risks and environmental impacts. Typical poultry waste streams were characterised based on compositional analysis, thermodynamic equilibrium modelling and non-isothermal thermogravimetric analysis coupled with mass spectrometry (TG-MS). Poultry waste is highly variable but otherwise comparable with other biomass fuels. The major technical and operating challenges are associated with this variability in terms of: moisture content, presence of inorganic species and type of litter. This variability is subject to a range of parameters including: type and age of bird, and geographical and seasonal inconsistencies. There are environmental and health considerations associated with combustion and gasification due to the formation of: NO(X), SO(X), H(2)S and HCl gas. Mitigation of these emissions is achievable through correct plant design and operation, however, with significant economic penalty. Based on our analysis and literature data, we present cost estimates for generic poultry-waste-fired power plants with throughputs of 2 and 8 tonnes/h.
Pyrolysis, gasification, and combustion techniques for the thermal destruction of common poultry derived wastes were investigated. The poultry wastes were characterised using proximate and ultimate analysis. The ash composition was analyzed using inductively coupled plasma (ICP) analysis. It was found that land application of untreated waste was the most economical solution under environmental legislation. The catalytic influence of inorganic species on the decomposition of biomass feedstocks was observed. In situ mineral matter, including calcium oxide (CaO), dramatically influenced the decomposition behaviour and the final distribution of the product gases. The ion current intensities corresponding carbon monoxide (CO) and carbon dioxide (CO sub(2)) were significantly diminished, consistent with the inferred CO sub(2) capture and water-gas shift mechanisms.
The high-temperature thermal destruction of poultry derived wastes (e.g., manure and bedding) for energy recovery is viable in Australia when considering resource availability and equivalent commercial-scale experience in the UK. In this work, we identified and examined the opportunities and risks associated with common thermal destruction techniques, including: volume of waste, costs, technological risks and environmental impacts. Typical poultry waste streams were characterised based on compositional analysis, thermodynamic equilibrium modelling and non-isothermal thermogravimetric analysis coupled with mass spectrometry (TG–MS). Poultry waste is highly variable but otherwise comparable with other biomass fuels. The major technical and operating challenges are associated with this variability in terms of: moisture content, presence of inorganic species and type of litter. This variability is subject to a range of parameters including: type and age of bird, and geographical and seasonal inconsistencies. There are environmental and health considerations associated with combustion and gasification due to the formation of: NO X , SO X , H 2S and HCl gas. Mitigation of these emissions is achievable through correct plant design and operation, however, with significant economic penalty. Based on our analysis and literature data, we present cost estimates for generic poultry-waste-fired power plants with throughputs of 2 and 8 tonnes/h.
The high-temperature thermal destruction of poultry derived wastes (e.g., manure and bedding) for energy recovery is viable in Australia when considering resource availability and equivalent commercial-scale experience in the UK. In this work, we identified and examined the opportunities and risks associated with common thermal destruction techniques, including: volume of waste, costs, technological risks and environmental impacts. Typical poultry waste streams were characterised based on compositional analysis, thermodynamic equilibrium modelling and non-isothermal thermogravimetric analysis coupled with mass spectrometry (TG-MS). Poultry waste is highly variable but otherwise comparable with other biomass fuels. The major technical and operating challenges are associated with this variability in terms of: moisture content, presence of inorganic species and type of litter. This variability is subject to a range of parameters including: type and age of bird, and geographical and seasonal inconsistencies. There are environmental and health considerations associated with combustion and gasification due to the formation of: NO sub(X), SO sub(X), H sub(2)S and HCl gas. Mitigation of these emissions is achievable through correct plant design and operation, however, with significant economic penalty. Based on our analysis and literature data, we present cost estimates for generic poultry-waste-fired power plants with throughputs of 2 and 8 tonnes/h.
Author Maddocks, A.R.
Harris, A.T.
Wood, S.
Florin, N.H.
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Issue 4
Keywords Nitrogen oxide
Power plant
Poultry manure
Thermogravimetry
Energy recovery
Combustion
Biomass
Farmyard manure
Pollutant emission
Modeling
Thermodynamic equilibrium
Hydrochloric acid
Environment impact
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Pollution abatement
Mass spectrometry
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Snippet The high-temperature thermal destruction of poultry derived wastes (e.g., manure and bedding) for energy recovery is viable in Australia when considering...
Pyrolysis, gasification, and combustion techniques for the thermal destruction of common poultry derived wastes were investigated. The poultry wastes were...
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SubjectTerms Animals
Applied sciences
Australia
Electricity
Energy-Generating Resources
Environment
Exact sciences and technology
Hot Temperature
Manure
Mass Spectrometry
Other wastes and particular components of wastes
Pollution
Poultry
Power Plants - economics
Thermodynamics
Waste Products - analysis
Wastes
Title High-temperature thermal destruction of poultry derived wastes for energy recovery in Australia
URI https://dx.doi.org/10.1016/j.wasman.2008.10.002
https://www.ncbi.nlm.nih.gov/pubmed/19046863
https://www.proquest.com/docview/14022338
https://www.proquest.com/docview/20355224
https://www.proquest.com/docview/66944001
Volume 29
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