Experimental study and SEM-EDS analysis of agglomerates from gasification of biomass in fluidized beds

Experimental study and SEM-EDS analysis of agglomerates from gasification of biomass in fluidized beds

Fluidized bed gasification is an attractive conversion technology for biomass. However, processing biomass in fluidized beds suffers from ash related problems. In this work, bed agglomeration of wood pellets and grass pellets was compared, focusing on de-fluidization temperatures and variation in mi...

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Bibliographic Details
Published in:Energy (Oxford) Vol. 252; p. 124034
Main Authors: Furuvik, Nora C.I.S., Wang, Liang, Jaiswal, Rajan, Thapa, Rajan, Eikeland, Marianne S., Moldestad, Britt M.E.
Format: Journal Article
Language:English
Published: Oxford Elsevier Ltd 01-08-2022
Elsevier BV
Subjects:
Agglomerates
Agglomeration
Ashes
Bed agglomeration
Bed material
Biomass
Biomass characteristics
Chemical composition
Composition
Fluidization
Fluidized bed gasification
Fluidized beds
Gasification
Grasses
Hardwoods
Pellets
Scanning electron microscopy
SEM-EDS analyses
X-ray spectroscopy
Bed agglomeration
SEM-EDS analyses
Fluidized bed gasification
Biomass characteristics
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Summary:Fluidized bed gasification is an attractive conversion technology for biomass. However, processing biomass in fluidized beds suffers from ash related problems. In this work, bed agglomeration of wood pellets and grass pellets was compared, focusing on de-fluidization temperatures and variation in microstructure and composition of agglomerates. The results showed that both biomasses form agglomerates at temperatures between 700 °C and 900 °C. After each test run, residual sand and agglomerates were discharged and the ash/bed material ratio was calculated. Larger amount of accumulated ash and agglomerates were collected from the gasification of grass pellets than that from wood pellets, indicating that different mechanisms are present in the agglomerate formation. The ash/bed material varied from 3 to 10 wt% for the grass pellets and from 0.8 to 1.5 wt% for the wood pellets. A scanning electron microscope with energy dispersive X-ray spectroscopy was used for characterizing morphology and elemental composition of the agglomerates. The findings show that the surface of agglomerates from grass were dominated by Si, Ca and K, while the surface of agglomerates from wood mainly were dominated by Si and K. The cross-sectional analysis concluded that Si, Ca, and K are the ash forming elements that play the most significant role in agglomeration processes. •Bed agglomeration depends on the distribution of Si, K and Ca in the biomass.•Agglomerates appear with large structural variations according to the biomass used.•Agglomerates were detected as sudden changes in the bed pressure and temperature.•The morphology and the elemental composition were characterized by SEM-EDS analyses.
ISSN:0360-5442
1873-6785
DOI:10.1016/j.energy.2022.124034