Formation of NOx precursors during the pyrolysis of coal and biomass. Part VII. Pyrolysis and gasification of cane trash with steam

Fu Jun Tian; Jiang Long Yu; Lachlan J. Mckenzie; Jun Ichiro Hayashi; Tadatoshi Chiba; Chun Zhu Li

doi:10.1016/j.fuel.2004.09.018

Formation of NO_x precursors during the pyrolysis of coal and biomass. Part VII. Pyrolysis and gasification of cane trash with steam

Fu Jun Tian, Jiang Long Yu, Lachlan J. Mckenzie, Jun Ichiro Hayashi, Tadatoshi Chiba, Chun Zhu Li

Research output: Contribution to journal › Article › peer-review

67 Citations (Scopus)

Abstract

Biomass-nitrogen conversion during the pyrolysis and gasification of a cane trash in steam was investigated using a fluidised-bed/fixed-bed reactor and a fluidised-bed/tubular reactor. Our results indicate that the thermal cracking of volatile-N is the main route of HCN formation although the thermal cracking of char-N also contributes to the formation of HCN. There are three major routes of NH₃ formation: 'hydrolysis' of N-containing structures in the solid phase during the primary pyrolysis, thermal cracking and gasification of solid nascent char as well as the thermal cracking and reforming of volatile-N. Under the current experimental conditions, the hydrolysis of HCN does not appear to be an important route of NH₃/HNCO formation.

Original language	English
Pages (from-to)	371-376
Number of pages	6
Journal	Fuel
Volume	84
Issue number	4
DOIs	https://doi.org/10.1016/j.fuel.2004.09.018
Publication status	Published - Mar 2005
Externally published	Yes

All Science Journal Classification (ASJC) codes

Chemical Engineering(all)
Fuel Technology
Energy Engineering and Power Technology
Organic Chemistry

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10.1016/j.fuel.2004.09.018

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@article{c8875aa18fa640d580f5e31a0390479c,

title = "Formation of NOx precursors during the pyrolysis of coal and biomass. Part VII. Pyrolysis and gasification of cane trash with steam",

abstract = "Biomass-nitrogen conversion during the pyrolysis and gasification of a cane trash in steam was investigated using a fluidised-bed/fixed-bed reactor and a fluidised-bed/tubular reactor. Our results indicate that the thermal cracking of volatile-N is the main route of HCN formation although the thermal cracking of char-N also contributes to the formation of HCN. There are three major routes of NH3 formation: 'hydrolysis' of N-containing structures in the solid phase during the primary pyrolysis, thermal cracking and gasification of solid nascent char as well as the thermal cracking and reforming of volatile-N. Under the current experimental conditions, the hydrolysis of HCN does not appear to be an important route of NH3/HNCO formation.",

author = "Tian, {Fu Jun} and Yu, {Jiang Long} and Mckenzie, {Lachlan J.} and Hayashi, {Jun Ichiro} and Tadatoshi Chiba and Li, {Chun Zhu}",

note = "Funding Information: The authors gratefully acknowledge the financial support of this study by NEDO (Japan). The authors wish to thank Drs Terry Dixon and Phil Hobson of the Sugar Research Institute (Queensland, Australia) for providing the cane trash sample. Fu-Jun Tian also gratefully acknowledges the MIPRS and MGS scholarships from Monash University.",

year = "2005",

month = mar,

doi = "10.1016/j.fuel.2004.09.018",

language = "English",

volume = "84",

pages = "371--376",

journal = "Fuel",

issn = "0016-2361",

publisher = "Elsevier BV",

number = "4",

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T1 - Formation of NOx precursors during the pyrolysis of coal and biomass. Part VII. Pyrolysis and gasification of cane trash with steam

AU - Tian, Fu Jun

AU - Yu, Jiang Long

AU - Mckenzie, Lachlan J.

AU - Hayashi, Jun Ichiro

AU - Chiba, Tadatoshi

AU - Li, Chun Zhu

N1 - Funding Information: The authors gratefully acknowledge the financial support of this study by NEDO (Japan). The authors wish to thank Drs Terry Dixon and Phil Hobson of the Sugar Research Institute (Queensland, Australia) for providing the cane trash sample. Fu-Jun Tian also gratefully acknowledges the MIPRS and MGS scholarships from Monash University.

PY - 2005/3

Y1 - 2005/3

N2 - Biomass-nitrogen conversion during the pyrolysis and gasification of a cane trash in steam was investigated using a fluidised-bed/fixed-bed reactor and a fluidised-bed/tubular reactor. Our results indicate that the thermal cracking of volatile-N is the main route of HCN formation although the thermal cracking of char-N also contributes to the formation of HCN. There are three major routes of NH3 formation: 'hydrolysis' of N-containing structures in the solid phase during the primary pyrolysis, thermal cracking and gasification of solid nascent char as well as the thermal cracking and reforming of volatile-N. Under the current experimental conditions, the hydrolysis of HCN does not appear to be an important route of NH3/HNCO formation.

AB - Biomass-nitrogen conversion during the pyrolysis and gasification of a cane trash in steam was investigated using a fluidised-bed/fixed-bed reactor and a fluidised-bed/tubular reactor. Our results indicate that the thermal cracking of volatile-N is the main route of HCN formation although the thermal cracking of char-N also contributes to the formation of HCN. There are three major routes of NH3 formation: 'hydrolysis' of N-containing structures in the solid phase during the primary pyrolysis, thermal cracking and gasification of solid nascent char as well as the thermal cracking and reforming of volatile-N. Under the current experimental conditions, the hydrolysis of HCN does not appear to be an important route of NH3/HNCO formation.

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JO - Fuel

JF - Fuel

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ER -

Formation of NO_x precursors during the pyrolysis of coal and biomass. Part VII. Pyrolysis and gasification of cane trash with steam

Abstract

All Science Journal Classification (ASJC) codes

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