Performance of fluidized bed steam gasification of biomass – Modeling and experiment

This paper presents the investigation of the performance from different biomasses in a fluidized bed gasifier where steam has been used as gasifying as well as fluidizing agent. An experimental setup is fabricated to study the gasification performance of rice husk, which is of special relevance to r...

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Published inEnergy conversion and management Vol. 52; no. 3; pp. 1583 - 1588
Main Authors Loha, Chanchal, Chatterjee, Pradip K., Chattopadhyay, Himadri
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier Ltd 01.03.2011
Elsevier
Subjects
Applied sciences
Biomass
Calibration
Carbon dioxide
Carbon monoxide
Coal
Energy
Equilibrium modeling
Exact sciences and technology
Fluidized bed
Fluidized beds
Fuel processing. Carbochemistry and petrochemistry
Fuels
Gas composition
Gasification
Mathematical models
Oryza sativa
Solid fuel processing (coal, coke, brown coal, peat, wood, etc.)
China, People's Rep
India
Equilibrium modeling
Gasification
Biomass
Fluidized bed
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Summary:This paper presents the investigation of the performance from different biomasses in a fluidized bed gasifier where steam has been used as gasifying as well as fluidizing agent. An experimental setup is fabricated to study the gasification performance of rice husk, which is of special relevance to rice-producing countries like China and India. An equilibrium modeling approach is deployed to predict the gas composition which has been compared with the experimental results. Calibration of the model with appropriate modeling coefficients was necessary to achieve close resemblance with the experimental values. Further, the model is used to predict the gas compositions from other biomass and benchmarked with the performance of coal. In this study, the gasification temperature is varied from 650 °C to 800 °C, whereas the steam-to-biomass ratio ( S/ B) is varied from 0.75 to 2.00. As the gasification temperature increases, the production of H 2 and CO increases but the generation of CH 4 and CO 2 reduces. The steam-to-biomass ratio was again found to influence the production rates. With increasing steam input, H 2, CO 2 and CH 4 were found to increase while CO reduces.
Bibliography:ObjectType-Article-1
SourceType-Scholarly Journals-1
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content type line 23
ISSN:0196-8904
1879-2227
DOI:10.1016/j.enconman.2010.11.003