M. A. Kamaruddin, Norli Ismail, N. Fauzi, R. Alrozi, M. H. Hanif, F. A. Norashiddin
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引用次数: 0
摘要
厌氧消化(AD)是指在缺氧条件下将有机底物转化为沼气的生物过程。本研究的目的是确定原料产生沼气的能力,并量化不同原料的沼气产量。在连续搅拌槽式反应器中,在中温条件下,以0.0756 g COD/ l .d的恒定有机负荷速率,水力停留时间为25 d,进行了共消化试验。为了比较,在实验工作中也加入了单消化。在整个实验过程中使用了2 L的工作体积。从堆肥中获得种子培养物作为基质消化。将原料加入到种子中,经过3天的滞留时间,沼气开始排放。当播种量为1000 mL时,沼气产量最高,但两个共消化反应器的沼气产量最低,为340 mL。甲烷产率最高,为0.16 L CH4/mg。COD最高为8.6%,最低为0.5%。添加种子的大戟科植物皮反应器甲烷产量最高,添加种子的大戟科植物茎反应器甲烷产量最低。在本研究中,使用碳酸氢钠(NaHCO3)作为缓冲溶液,在发现反应器条件处于酸化或酸性条件时,对反应器中的pH进行校正。
Sustainable anaerobic digestion of euphorbiaceae waste forbiogas production: Effects of feedstock variation
Anaerobic digestion (AD) refers to the biological process which can convert organic substrates to biogas in the absence of oxygen. The aim of this study was to determine the capability of feedstock to produce biogas and to quantify the biogas yield from different feedstocks. A co-digestion approach was carried out in a continuous stirred tank reactor operated under mesophilic conditions and at a constant organic loading rate of 0.0756 g COD/ L.day, with a hydraulic retention time of 25 days. For comparison,
mono-digestion was also included in the experimental work. 2 L working volumes were used throughout the
experimental work. The seed culture was obtained from composting as substrate digestion. When the feedstock was added to seeding, the biogas started to emit after three days of retention time. The highest volume of biogas was observed when the seeding volume used for 1000 mL. However, the lowest volume of biogas yield was obtained from both co-digestion reactors, with a value of 340 mL. For methane yield, the highest methane production rate was 0.16 L CH4/mg. The COD with yield was at 8.6% and the lowest was at
0.5%. The highest quantity of methane was obtained from a reactor of Euphorbiaceae peel with added seeding, while the lowest methane yield came from a reactor of Euphorbiaceae stems with added seeding. In this study, sodium bicarbonate (NaHCO3) was used as a buffering solution to correct the pH in the reactor if the reactor condition was found to be in a souring or acidic condition.
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