In the past decade, biogenic methane production in the fine tailings pond of Syncrude Canada Ltd. has increased markedly. This study addressed the questions: what started methanogenesis; what are the substrates for methanogenesis; and how long will methanogenesis occur? All the fine tailings produced methane but the organic compounds leading to methanogenesis could not be identified. Phenol, p-cresol and m-cresol stimulated methanogenesis but o-cresol, toluene, phenanthrene, anthracene, hexadecane and naphthenic acids did not. Mixtures of the naphthenic acids were toxic to the consortium. In the fine tailings, methanogens and sulfate-reducing bacteria co-exist but the precise relationship between the two populations could not be determined. Bacterial competition stimulated by the addition of nitrate and sulfate inhibited methanogenesis. Fine tailings samples produced between 0.10 to 0.25 mL CH4/mL tailings in batch methanogenesis monitored for over a year. Methanogenesis was a finite process and slowed after substrates were depleted.
展开▼
机译:在过去的十年中,Syncrude Canada Ltd.的细尾矿池中生物甲烷的产量显着增加。这项研究解决了以下问题:是什么导致了甲烷生成?产甲烷的底物是什么?产甲烷会持续多久?所有细尾矿均产生甲烷,但无法识别导致甲烷生成的有机化合物。苯酚,对甲酚和间甲酚刺激甲烷生成,而邻甲酚,甲苯,菲,蒽,十六烷和环烷酸则不能。环烷酸的混合物对财团有毒。在细尾矿中,产甲烷菌和减少硫酸盐的细菌共存,但无法确定两个种群之间的确切关系。加入硝酸盐和硫酸盐刺激的细菌竞争抑制了甲烷生成。细尾矿样品在一年多的监测中,在成批甲烷生成中产生了0.10至0.25 mL CH4 / mL尾矿。甲烷生成是一个有限的过程,并且在底物耗尽后减慢了甲烷的生成速度。
展开▼
