Pyrolysis of furniture wood waste: Decomposition and gases evolved

•Pyrolysis of furniture wood waste.•Kinetic parameters of pyrolysis from TG analysis.•Analysis of gas, volatile and semi-volatile products evolved. The pyrolysis of furniture wood waste was studied due to its importance as a thermochemical conversion process, and also because it is a step in the com...

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Veröffentlicht in:Journal of analytical and applied pyrolysis Jg. 113; S. 464 - 473
Hauptverfasser: Moreno, Ana Isabel, Font, Rafael
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Elsevier B.V 01.05.2015
Schlagworte:
additives
carbon dioxide
cellulose
combustion
Fourier transform infrared spectroscopy
furniture
gases
Gases evolved
hemicellulose
lignin
mass spectrometry
pyrolysis
TG-FTIR
TG-MS
Thermogravimetric analysis (TGA)
thermogravimetry
wood
Wood waste
TG-MS
Thermogravimetric analysis (TGA)
Wood waste
Gases evolved
TG-FTIR
ISSN:0165-2370, 1873-250X
Online-Zugang:Volltext
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Abstract •Pyrolysis of furniture wood waste.•Kinetic parameters of pyrolysis from TG analysis.•Analysis of gas, volatile and semi-volatile products evolved. The pyrolysis of furniture wood waste was studied due to its importance as a thermochemical conversion process, and also because it is a step in the combustion process. Furniture wood contains organic additives and inorganic elements (being noteworthy the high content of Ti). These additives cause changes in the thermal processes. A thermogravimetric analysis of the pyrolysis of furniture wood waste was carried out in a TGA apparatus using dynamic and dynamic+isothermal runs. The pyrolysis was modeled with acceptable approximation by three independent reactions, according to the decomposition of the main components of the wood (hemicellulose, cellulose and lignin). The gaseous products evolved during the pyrolysis were measured by the TG-MS and TG-FTIR techniques. The maximum formation of gases occurs around 360°C. The CO2 formation remains until the end of the run, due to the wide range of lignin degradation. In addition, runs to identify the volatile and semi-volatile compounds were also carried out in a laboratory scale tubular reactor at 500 and 850°C and the results were compared with the pyrolysis of a cleaner wood.
AbstractList The pyrolysis of furniture wood waste was studied due to its importance as a thermochemical conversion process, and also because it is a step in the combustion process. Furniture wood contains organic additives and inorganic elements (being noteworthy the high content of Ti). These additives cause changes in the thermal processes. A thermogravimetric analysis of the pyrolysis of furniture wood waste was carried out in a TGA apparatus using dynamic and dynamic+isothermal runs. The pyrolysis was modeled with acceptable approximation by three independent reactions, according to the decomposition of the main components of the wood (hemicellulose, cellulose and lignin). The gaseous products evolved during the pyrolysis were measured by the TG-MS and TG-FTIR techniques. The maximum formation of gases occurs around 360°C. The CO2 formation remains until the end of the run, due to the wide range of lignin degradation. In addition, runs to identify the volatile and semi-volatile compounds were also carried out in a laboratory scale tubular reactor at 500 and 850°C and the results were compared with the pyrolysis of a cleaner wood.
•Pyrolysis of furniture wood waste.•Kinetic parameters of pyrolysis from TG analysis.•Analysis of gas, volatile and semi-volatile products evolved. The pyrolysis of furniture wood waste was studied due to its importance as a thermochemical conversion process, and also because it is a step in the combustion process. Furniture wood contains organic additives and inorganic elements (being noteworthy the high content of Ti). These additives cause changes in the thermal processes. A thermogravimetric analysis of the pyrolysis of furniture wood waste was carried out in a TGA apparatus using dynamic and dynamic+isothermal runs. The pyrolysis was modeled with acceptable approximation by three independent reactions, according to the decomposition of the main components of the wood (hemicellulose, cellulose and lignin). The gaseous products evolved during the pyrolysis were measured by the TG-MS and TG-FTIR techniques. The maximum formation of gases occurs around 360°C. The CO2 formation remains until the end of the run, due to the wide range of lignin degradation. In addition, runs to identify the volatile and semi-volatile compounds were also carried out in a laboratory scale tubular reactor at 500 and 850°C and the results were compared with the pyrolysis of a cleaner wood.
Author Font, Rafael
Moreno, Ana Isabel
Author_xml – sequence: 1
  givenname: Ana Isabel
  surname: Moreno
  fullname: Moreno, Ana Isabel
  email: anaisabel.moreno@ua.es
– sequence: 2
  givenname: Rafael
  surname: Font
  fullname: Font, Rafael
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Keywords TG-MS
Thermogravimetric analysis (TGA)
Wood waste
Gases evolved
TG-FTIR
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Snippet •Pyrolysis of furniture wood waste.•Kinetic parameters of pyrolysis from TG analysis.•Analysis of gas, volatile and semi-volatile products evolved. The...
The pyrolysis of furniture wood waste was studied due to its importance as a thermochemical conversion process, and also because it is a step in the combustion...
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SubjectTerms additives
carbon dioxide
cellulose
combustion
Fourier transform infrared spectroscopy
furniture
gases
Gases evolved
hemicellulose
lignin
mass spectrometry
pyrolysis
TG-FTIR
TG-MS
Thermogravimetric analysis (TGA)
thermogravimetry
wood
Wood waste
Title Pyrolysis of furniture wood waste: Decomposition and gases evolved
URI https://dx.doi.org/10.1016/j.jaap.2015.03.008
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Volume 113
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