Steam co-gasification of brown seaweed and land-based biomass

Steam co-gasification of brown seaweed and land-based biomass

Alkali and alkaline earth species in biomass have self-catalytic activity on the steam gasification to produce hydrogen-rich gas. In this study, three types of biomass, i.e., brown seaweed, Japanese cedar, apple branch containing different concentrations of alkali and alkaline earth species, and the...

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Bibliographic Details
Published in:Fuel processing technology Vol. 120; pp. 106 - 112
Main Authors: KAEWPANHA, Malinee, GUOQING GUAN, XIAOGANG HAO, ZHONGDE WANG, KASAI, Yutaka, KUSAKABE, Katsuki, ABUDULA, Abuliti
Format: Journal Article
Language:English
Published: Amsterdam Elsevier 01-04-2014
Subjects:
Apples
Applied sciences
Ashes
Barometric pressure
Biomass
Carbon dioxide
Cryptomeria japonica
Earth
Energy
Exact sciences and technology
Fuel processing. Carbochemistry and petrochemistry
Fuels
Gasification
Seaweeds
Solid fuel processing (coal, coke, brown coal, peat, wood, etc.)
INW, Japan
Terrestrial environment
Alkali metal Compounds
Algae
Alkali metals
Composition effect
Biomass
Autocatalysis
Water vapor
Steam gasification
Alkaline earth metal Compounds
Marine environment
Alkaline earth metals
Seaweed
Co-gasification
Gasification
Catalyst activity
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Summary:Alkali and alkaline earth species in biomass have self-catalytic activity on the steam gasification to produce hydrogen-rich gas. In this study, three types of biomass, i.e., brown seaweed, Japanese cedar, apple branch containing different concentrations of alkali and alkaline earth species, and the mix of both of them were gasified with steam in a fixed-bed reactor under atmospheric pressure. The effects of reaction temperature, steam amount and mixing ratio in co-gasification on gas production yields were investigated. The results showed that higher gas production yields (especially for H2 and CO2) were obtained when the brown seaweed was used than the other two types of biomass since the ash content in brown seaweed was much higher than in land-based biomass and contained a large amount of alkali and alkaline earth species. The yield of hydrogen increased with an increase in the amount of steam, but excessive steam use reduced the hydrogen production yield. From the co-gasification experiments, the gas production yields (especially for H2 and CO2) from the land-based biomass increased with the increase in brown seaweed ratio, suggesting that the alkali and alkaline earth species in brown seaweed acted as the catalysts to enhance the gasification of land-based biomass in co-gasification process.
Bibliography:ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:0378-3820
1873-7188
DOI:10.1016/j.fuproc.2013.12.013