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首页> 外文会议>International thermal treatment technologies(IT3) amp; hazardous waste combustors (HWC) joint conference 2009 >The Influence Of Temperature, Wet, And Production Locality On Hydrogen Gas Generation From Refuse Derived Fuel And The Mechanism Of Generation
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The Influence Of Temperature, Wet, And Production Locality On Hydrogen Gas Generation From Refuse Derived Fuel And The Mechanism Of Generation

机译:温度,湿气和生产场所对垃圾衍生燃料产生氢气的影响及产生机理

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Refuse-derived fuel (hereafter abbreviated as RDF) is fuel produced from waste materials and has several advantages of reducing the waste volume, easy handling, and having the same calorific power as coal, etc. On the other hand, it has been pointed out that there is the possibility of hydrogen gas generation from RDF caused by microbial fermentation as a start of the explosion accident at the silo of RDF. The purpose of this paper is to investigate the possibility of hydrogen gas production from RDF and to clarify the condition for the highest hydrogen gas production and its mechanism.rnThe experiment was made with the sealed up vial bottle (100ml) of RDF pellet crushed of 10g, varying the temperature, water weight to be added, and production localities (collective and production place of RDF) under the aerobic or anaerobic atmosphere. Hydrogen gas generation was measured using gas chromatograph.rnConsequently, we found the highest condition of hydrogen gas generation. On the basis of this result, we investigate the identification of hydrogen gas producing bacteria. We also have found two kinds of aerobatic bacteria and two kinds of anaerobic one. Further experiments of hydrogen gas generation were carried out by the various combination cultivations of the four kinds of bacteria in the RDF. As a result, we can roughly understand the mechanism of hydrogen gas generation from RDF.
机译:垃圾衍生燃料(以下简称RDF)是由废料产生的燃料,具有减少废物量,易于处理,具有与煤炭相同的发热量等优点。另一方面,已经指出RDF筒仓发生爆炸事故时,微生物发酵会导致RDF产生氢气。本文的目的是研究RDF制氢的可能性,并阐明产生最高氢气的条件及其机理。rn实验是将100 ml密封的RDF颗粒小瓶瓶(100 ml)压碎,进行实验。 ,在需氧或厌氧气氛下,改变温度,要添加的水的重量以及生产地点(RDF的集合和生产地点)。使用气相色谱仪测量氢气的产生。因此,我们发现了氢气产生的最高条件。基于此结果,我们研究了氢气产生细菌的鉴定。我们还发现了两种特技细菌和两种厌氧细菌。通过在RDF中对四种细菌进行各种组合培养,进一步进行了氢气产生实验。结果,我们可以大致了解RDF产生氢气的机理。

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