在高速率厌氧反应器中用甲醇还原嗜热硫酸盐和亚硫酸盐

Transactions of The Society for Computer Simulation International Pub Date : 2000-09-01 DOI:10.2166/WST.2000.0521

J. Weijma, J. P. Haerkens, A. Stams, L. W. Pol, G. Lettinga

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引用次数: 23

摘要

作为传统废气脱硫技术的替代技术，嗜热亚硫酸盐和硫酸盐还原技术具有良好的应用前景。在实验室规模的膨胀颗粒污泥床(EGSB)反应器中，在65°C和pH 7.5的条件下，研究了以甲醇作为硫酸盐还原菌唯一碳源和能量源的嗜热性硫酸盐和亚硫酸盐还原。在水力停留时间(HRT)为4小时时，亚硫酸盐和硫酸盐的去除率高达0.22 mol-S。1 -1 .day -1(100%消除)和0.15 mol-S。L -1 .day -1(80%消除)分别达到。亚硫酸盐和硫酸盐还原占甲醇降解过程中释放电子的85-90%。此外，消耗的甲醇分别有10-13%和1-2%转化为乙酸和甲烷。在硫酸盐还原实验中，醋酸酯没有作为电子给体。乙酸酯的产量似乎与亚硫酸盐和硫酸盐的还原量呈线性相关。在亚硫酸盐批量试验中，硫化物和硫酸盐同时出现，证明了污泥的亚硫酸盐歧化活性。亚硫酸盐歧化率比硫酸盐甲醇还原率低4倍。结果清楚地表明，甲醇可以有效地作为电子和碳源，在嗜热生物反应器中获得较高的亚硫酸盐和硫酸盐去除率。

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Thermophilic sulfate and sulfite reduction with methanol in a high rate anaerobic reactor

Thermophilic sulfite and sulfate reduction offers good prospects as part of an alternative technology to conventional off-gas desulfurization technologies. Thermophilic sulfate and sulfite reduction with methanol as the sole carbon and energy source for the sulfate reducing bacteria was studied in lab-scale Expanded Granular Sludge Bed (EGSB) reactors operated at 65 °C and pH 7.5. At a hydraulic retention time (HRT) of 4 hr, sulfite and sulfate elimination rates of up to 0.22 mol-S.l -1 .day -1 (100% elimination) and 0.15 mol-S.l -1 .day -1 (80% elimination), respectively, were achieved. Sulfite and sulfate reduction accounted for 85–90% of the electrons released during degradation of methanol. In addition, 10–13% and 1–2% of the consumed methanol was converted to acetate and methane, respectively. Acetate was not utilized as electron donor for sulfate reduction. Acetate production seemed to be linearly correlated to the amount of sulfite and sulfate reduced. Sulfite disproportionating activity of the sludge was demonstrated by the simultaneous appearance of sulfide and sulfate in batch tests with sulfite. However, sulfite disproportionation rates were 4 times lower than sulfate reduction rates with methanol. The results clearly demonstrate that methanol can be efficiently used as electron and carbon source to obtain high sulfite and sulfate elimination rates in thermophilic bioreactors.

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Transactions of The Society for Computer Simulation International

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