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首页> 外文期刊>Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies >The effect of organic loading rate on bio-hydrogen production from pre-treated rice straw waste via mesophilic up-flow anaerobic reactor
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The effect of organic loading rate on bio-hydrogen production from pre-treated rice straw waste via mesophilic up-flow anaerobic reactor

机译:有机负载率对通过中温上流厌氧反应器处理的稻草废料生产生物氢的影响

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摘要

Effect of organic loading rate (OLR) on the continuous biological H _2 production from pretreated rice straw waste using a mesophilic up-flow anaerobic reactor (UAR) was investigated for 140d. OLR was varied from 7.1 to 26gCOD/ld. H _2 yield was significantly increased from 95.5 to 117mmol/d, when OLR was largely increased from 7.1 to 21.4gCOD/ld, respectively. However, further increase in OLR up to 26gCOD/ld, showed a decreasing trend to 107.1mmol/d. Likewise, H _2 production increased with OLR at the range of 7.1-21.4gCOD/ld, and reached the maximum H _2 production of 2.6l/d. However, the H 2 production started to decrease with the further increase of OLR, and dropped to 2.2l/d at OLR of 26gCOD/ld. The COD and carbohydrate removal efficiency were over 70% and 80% at OLRs of 7.1-21.4gCOD/ld, and decreased thereafter.
机译:研究了使用中温上流厌氧反应器(UAR)处理的稻草废料中有机负载量(OLR)对连续生物H _2产生的影响,持续140 d。 OLR从7.1变化到26gCOD / ld。当OLR从7.1gCOD / ld大大提高时,H _2产率从95.5 d显着提高到117mmol / d。但是,OLR进一步增加至26gCOD / ld,则显示下降趋势,降至107.1mmol / d。同样,OLR在7.1-21.4gCOD / ld范围内增加了H _2的产量,并达到了2.6 l / d的最大H _2产量。但是,随着OLR的进一步增加,H 2的产量开始下降,在OLR为26gCOD / ld的情况下降至2.2l / d。在OLR为7.1-21.4gCOD / ld的情况下,COD和碳水化合物的去除效率分别超过70%和80%,此后降低。

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