Gasification of bio-waste and biomass products through exposure to high density and low density supercritical water

DOITrouver le DOI : http://doi.org/10.1115/IMECE2014-36140
AuteurRechercher : ; Rechercher : ; Rechercher : ; Rechercher :
TypeArticle
Titre du compte renduASME International Mechanical Engineering Congress and Exposition, Proceedings (IMECE)
ConférenceASME 2014 International Mechanical Engineering Congress and Exposition, IMECE 2014, 14 November 2014 through 20 November 2014
Volume6A
SujetAnaerobic digestion; Density of gases; Gasification; Methane; Renewable energy resources; Biomass Gasification; Energy from biomass; Higher heating value; Renewable energy source; Supercritical water; Biomass
RésuméBiomass as a sustainable and renewable energy source is starting to gain momentum, especially as more economical energy extraction methods prevail. Supercritical water biomass gasification (SCWBG) is one of the more promising methods to extract energy from biomass in a gaseous form due to its lower temperature and simpler setup. In this work, two biomass samples (considered livestock feed) and two biomass waste samples are gasified in supercritical water (SCW). To compare the gasification of the real biomass samples (beat skin and straw) to previous works on model biomass compounds, two temperature states (hence different water densities) were used during gasification. An increase in temperature and decrease in water density was found to have similar effects on real biomass compared to that of model compounds. As temperature increases and water density decreases, combustible gas yields tend to increase due to changes in reaction pathways and reaction rates. In this work an analytical comparison is also made between the four different types of biomass in terms of which produce the most combustible gases and of which will generate the most energy. As a result of this analysis beet skins produce the most methane and corn silage yields the most hydrogen. It is the two bio-waste products, however, that generated the largest higher heating values (HHV).
Date de publication
Maison d’éditionAmerican Society of Mechanical Engineers
Langueanglais
AffiliationConseil national de recherches Canada; Énergie, mines et environnement
Publications évaluées par des pairsOui
Numéro NPARC21275591
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Identificateur de l’enregistrement37875975-7d58-41a6-9224-8f17c379d105
Enregistrement créé2015-07-14
Enregistrement modifié2016-05-09
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