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首页> 外文期刊>Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies >Nutrient removal and energy recovery from high-rate activated sludge processes - Impact of sludge age
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Nutrient removal and energy recovery from high-rate activated sludge processes - Impact of sludge age

机译:高速激活污泥工艺中的营养去除和能量回收 - 污泥年龄的影响

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This study evaluated high-rate activated sludge treatment across a broad range of short solids retention times (SRT) s (0.5-3 d) and found a strong SRT-outcome dependence for performance and subsequent anaerobic degradability of the sludge. Up to 50% total nitrogen, and 35% ammonia removal was also achieved at the longer SRTs, via partitioning rather than reaction. The aerobic SRT significantly affected the anaerobic degradability of the sludge produced (p < 0.001), with degradability increasing from 66% to over 80% while reducing the SRT from 3 d to 0.5 d. This is higher than predicted by conventional models, likely due to additional mechanisms such as adsorption and storage, not included in these.
机译:该研究评估了跨越短固体保留时间(SRT)S(0.5-3d)的高速率活性污泥处理,并发现了对性能和随后的污泥的厌氧可降解性的强烈的SRT-结果依赖性。 通过分配而不是反应,还可以在较长的Srts中获得高达50%的总氮和35%氨除去。 有氧SRT显着影响所产生的污泥的厌氧可降解性(P <0.001),可降解性从66%增加到超过80%,同时将SRT从3D降低至0.5天。 这高于传统模型预测,可能由于诸如吸附和储存的额外机制而不是包括在这些机制。

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