Study on HCl emission behavior during pyrolysis of demolition wood with PVC and municipal solid waste for clean hydrogen production

Hidetoshi Kuramochi; Wei Wu; Katsuya Kawamoto

Study on HCl emission behavior during pyrolysis of demolition wood with PVC and municipal solid waste for clean hydrogen production

Hidetoshi Kuramochi, Wei Wu, Katsuya Kawamoto

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

In this study, first, HCl emission during the pyrolysis of demolition wood containing polyvinyl chloride (PVC) film and refuse-derived fuel (RDF) converted from municipal wastes was measured with a laboratoryscale cylindrical batch reactor. The difference in the HCl emission behavior between both feedstocks was discussed. In the case of the demolition wood with PVC, the effects of wood composition on HCl emission were investigated by not only measuring the HCl emission during the copyrolysis of the primary constituents of wood (cellulose, hemicellulose and lignin) with PVC film but also by conducting thermogravimetric analysis of the constituents. Finally, the reduction of HCl emission due to blending demolition wood and PVC film with a K-rich biomass was experimentally evaluated as a method for reducing the HCl emission.

Original language	English
Title of host publication	16th World Hydrogen Energy Conference 2006, WHEC 2006
Pages	1597-1602
Number of pages	6
Publication status	Published - Dec 1 2006
Externally published	Yes
Event	16th World Hydrogen Energy Conference 2006, WHEC 2006 - Lyon, France Duration: Jun 13 2006 → Jun 16 2006

Publication series

Name	16th World Hydrogen Energy Conference 2006, WHEC 2006
Volume	2

Other

Other	16th World Hydrogen Energy Conference 2006, WHEC 2006
Country	France
City	Lyon
Period	6/13/06 → 6/16/06

Keywords

Demolition wood
HCl emission behavior
PVC
Pyrolysis
RDF

ASJC Scopus subject areas

Energy Engineering and Power Technology
Fuel Technology

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Study on HCl emission behavior during pyrolysis of demolition wood with PVC and municipal solid waste for clean hydrogen production. / Kuramochi, Hidetoshi; Wu, Wei; Kawamoto, Katsuya.

16th World Hydrogen Energy Conference 2006, WHEC 2006. 2006. p. 1597-1602 (16th World Hydrogen Energy Conference 2006, WHEC 2006; Vol. 2).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Kuramochi, H, Wu, W & Kawamoto, K 2006, Study on HCl emission behavior during pyrolysis of demolition wood with PVC and municipal solid waste for clean hydrogen production. in 16th World Hydrogen Energy Conference 2006, WHEC 2006. 16th World Hydrogen Energy Conference 2006, WHEC 2006, vol. 2, pp. 1597-1602, 16th World Hydrogen Energy Conference 2006, WHEC 2006, Lyon, France, 6/13/06.

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title = "Study on HCl emission behavior during pyrolysis of demolition wood with PVC and municipal solid waste for clean hydrogen production",

abstract = "In this study, first, HCl emission during the pyrolysis of demolition wood containing polyvinyl chloride (PVC) film and refuse-derived fuel (RDF) converted from municipal wastes was measured with a laboratoryscale cylindrical batch reactor. The difference in the HCl emission behavior between both feedstocks was discussed. In the case of the demolition wood with PVC, the effects of wood composition on HCl emission were investigated by not only measuring the HCl emission during the copyrolysis of the primary constituents of wood (cellulose, hemicellulose and lignin) with PVC film but also by conducting thermogravimetric analysis of the constituents. Finally, the reduction of HCl emission due to blending demolition wood and PVC film with a K-rich biomass was experimentally evaluated as a method for reducing the HCl emission.",

keywords = "Demolition wood, HCl emission behavior, PVC, Pyrolysis, RDF",

author = "Hidetoshi Kuramochi and Wei Wu and Katsuya Kawamoto",

year = "2006",

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language = "English",

isbn = "9781622765409",

series = "16th World Hydrogen Energy Conference 2006, WHEC 2006",

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AU - Kuramochi, Hidetoshi

AU - Wu, Wei

AU - Kawamoto, Katsuya

PY - 2006/12/1

Y1 - 2006/12/1

N2 - In this study, first, HCl emission during the pyrolysis of demolition wood containing polyvinyl chloride (PVC) film and refuse-derived fuel (RDF) converted from municipal wastes was measured with a laboratoryscale cylindrical batch reactor. The difference in the HCl emission behavior between both feedstocks was discussed. In the case of the demolition wood with PVC, the effects of wood composition on HCl emission were investigated by not only measuring the HCl emission during the copyrolysis of the primary constituents of wood (cellulose, hemicellulose and lignin) with PVC film but also by conducting thermogravimetric analysis of the constituents. Finally, the reduction of HCl emission due to blending demolition wood and PVC film with a K-rich biomass was experimentally evaluated as a method for reducing the HCl emission.

AB - In this study, first, HCl emission during the pyrolysis of demolition wood containing polyvinyl chloride (PVC) film and refuse-derived fuel (RDF) converted from municipal wastes was measured with a laboratoryscale cylindrical batch reactor. The difference in the HCl emission behavior between both feedstocks was discussed. In the case of the demolition wood with PVC, the effects of wood composition on HCl emission were investigated by not only measuring the HCl emission during the copyrolysis of the primary constituents of wood (cellulose, hemicellulose and lignin) with PVC film but also by conducting thermogravimetric analysis of the constituents. Finally, the reduction of HCl emission due to blending demolition wood and PVC film with a K-rich biomass was experimentally evaluated as a method for reducing the HCl emission.

KW - Demolition wood

KW - HCl emission behavior

KW - PVC

KW - Pyrolysis

KW - RDF

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SP - 1597

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BT - 16th World Hydrogen Energy Conference 2006, WHEC 2006

T2 - 16th World Hydrogen Energy Conference 2006, WHEC 2006

Y2 - 13 June 2006 through 16 June 2006

ER -

Study on HCl emission behavior during pyrolysis of demolition wood with PVC and municipal solid waste for clean hydrogen production

Abstract

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Keywords

ASJC Scopus subject areas

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