Gasification of Bio-waste and Biomass Products through Exposure to HD and LD Supercritical Water

Gasification of Bio-waste and Biomass Products through Exposure to HD and LD Supercritical Water

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摘要 Biomass as a sustainable and renewable energy source is starting to gain momentum, especially as more economical energy extraction methods prevail. SCWBG （supercritical water biomass gasification） 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 and two bio-waste samples are gasified in SCW （supercritical water） under two temperatures （hence water densities）. As temperature increases and water density decreases, combustible gas yields tend to increase due to changes in reaction pathways and reaction rates. An analytical comparison is also made between the four different types of biomass in terms of the combustible gases produced and hence the energy value. As a result of this analysis beet skin produces the most methane and corn silage yields the most hydrogen. The two bio-waste samples （straw and beet skin） are found to have the highest HHV （higher heating values）.

作者 Bob Desnoo Xiao Huang

机构地区 Department of Mechanical and Aerospace Engineering

出处《Journal of Energy and Power Engineering》 2013年第10期1922-1933,共12页 能源与动力工程（美国大卫英文）

关键词 Biomass gasification supercritical water BIO-WASTE heating value. 生物质能生物废弃物超临界水水气化产品 LD HD 提取方法

分类号 S152 [农业科学—土壤学] TK6 [动力工程及工程热物理—生物能]

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Journal of Energy and Power Engineering

2013年第10期

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Gasification of Bio-waste and Biomass Products through Exposure to HD and LD Supercritical Water

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