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摘要: 以废弃生物质转化为富氢气体为目的,使用间歇式超临界水反应器,在反应温度773 K~923 K、压力15.5 MPa~34.5 MPa停留时间1 min~30 min和Ca/C摩尔比0~0.56范围内,对木屑在超临界水条件下生成的气体组成及产率进行了考察。实验表明,Ca/C摩尔比和温度对木屑转化的影响较大。当Ca/C摩尔比为0.48时,碳的气体转化率和氢气产率提高了近一倍。温度从773 K提高到923 K,碳的气体转化率由47%提高到76%,氢气产率由4.5 mmol/g上升到6.9 mmol/g。与温度相比,停留时间和压力的影响不大。Abstract: In the present work, hydrogen production from wood sawdust in supercritical water is investigated using a batch reactor. CaO was added to produce a clean gas free of environmentally unfriendly gases. The effects of CaO and reaction conditions on both yield and composition of the products are investigated. When Ca/C molar ratio is increased from 0 to 0.48, the yield of hydrogen increases from 3.2 mmol/g to 6.5 mmol/g. The results indicate that the key factor that affects the conversion of wood sawdust is the reaction temperature. The conversion of carbon to gas increases from 47% to 76% and the yield of hydrogen is increased from 4.5 mmol/g to 6.5 mmol/g with an increase of temperature from 773 K to 873 K. Compared with temperature, the influence of both residence time and pressure is less significant.
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Key words:
- supercritical water /
- wood sawdust /
- hydrogen production /
- calcium oxide
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