Enhanced Methane Production from Pilot-Scale Anaerobic DigesterLoaded with Rice Straw

Wendy A. Mussoline, G. Esposito, P. Lens, A. Giordano
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引用次数: 5

Abstract

A novel co-digestion approach was evaluated to determine if agricultural and industrial waste residues could efficiently degrade straw without pretreatment. Untreated rice straw was co-digested with pig wastewater and anaerobic sludge from the pulp and paper mill treatment process in a pilot-scale digester (1 m) operated in dry, mesophilic conditions. The total weight ratio of dry straw to pig wastewater to sludge was 1 to1.25 to 0.5. The experiment was performed for a total of 153 days, however, the optimum period to balance the maximum energy output with the minimum retention time was determined to be 93 days. The addition of paper mill sludge accelerated VFA formation and gas production when compared to another pilot-scale digester operated under the same conditions without the sludge material. The straw in the pilot-scale digester with the sludge yielded 231 LCH4/kg VS within a 93-day digestion cycle compared to 189 days without the sludge. Daily leachate recirculation (0.2m/m straw-day), however, was not adequate for internal mixing and homogenization of the digester material. With adequate mixing, this co-digestion approach could enhance methane production and reduce the digestion time for untreated rice straw in a farm-scale digester.
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中试秸秆厌氧沼气池沼气增产研究
研究了一种新的协同消化方法,以确定农业和工业废渣是否可以在不进行预处理的情况下有效降解秸秆。在干燥、中温条件下运行的中试沼气池(1米)中,将未经处理的稻秆与纸浆和造纸厂处理过程中产生的猪废水和厌氧污泥共同消化。干秸秆与生猪废水、污泥的总重量比为1∶1.25 ~ 0.5。试验共进行153 d,可确定最大能量输出与最小滞留时间相平衡的最佳周期为93 d。与在相同条件下运行的另一个中试沼气池相比,添加造纸厂污泥加速了VFA的形成和产气。在有污泥的中试沼气池中,秸秆在93天的消化周期内产生231 LCH4/kg VS,而没有污泥的消化周期为189天。然而,每天的渗滤液回灌量(0.2m/m稻草日)不足以实现蒸煮池物料的内部混合和均质化。在充分混合的情况下,这种共消化方法可以提高甲烷产量,并缩短农场规模消化器中未经处理的稻草的消化时间。
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