Anaerobic mesophilic digestion of sludge with extra-thermophilic and high ph pre-treatment

Linnaeus Eco-Tech Pub Date : 2019-07-04 DOI:10.15626/eco-tech.2003.054

A. Menert, E. Rikmann, M. Michelis, Tarmo Vaalu, Viktoria Blonskaja, R. Vilu

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引用次数: 1

Abstract

In this study different methods of sludge pre-treatment with elevated temperatures andpH have been selected for investigation. Five sets of sludge samples were pretreated asfollows: heating at 70°C for 30 min, at 80°C for 20 min, at 90°C for 10 min, at 100°C forWWTP5 min and NaOH-treatment (pH 12 for 4 hours). For comparison a sample from Tallinn(3:1 mixture of primary (dry solids 5.2%) and activated sludge (dry solids 0.5%))was used. Extra-thermophilic pre-treatment increased the degree of hydrolyses of sludge,enabling the following anaerobic digestion process to proceed faster than that of rawsludge. However, extra-thermophilic pre-treatment was insufficient for removal ofnitrogen and phosphorous. Nitrogen can be easily solubilized during extra-thermophilicpre-treatment but solubilization of phosphorous occurs only through digestion. Theproduction of biogas during anaerobic digestion was also dependant on the quality of theinput of pre-treated sludge. The highest cumulative volume of biogas (124 mUg CODadded) was achieved by pre-treatment at 80°C. The percentage of mineralization of pretreated sludges on mesophilic digestion was the highest with 90°C sample - 65.9%.

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超嗜热和高ph预处理污泥厌氧中温消化

在本研究中，选择了不同的污泥预处理方法进行了研究。对5组污泥样品进行预处理:70℃加热30 min, 80℃加热20 min, 90℃加热10 min, 100℃加热wwtp5 min, naoh处理(pH为12，处理4小时)。为了进行比较，使用了塔林的样品(原液(干固体5.2%)和活性污泥(干固体0.5%)的3:1混合物)。超嗜热预处理增加了污泥的水解程度，使后续厌氧消化过程比原始污泥进行得更快。然而，超嗜热预处理不足以去除氮和磷。在超嗜热预处理过程中，氮可以很容易地溶解，但磷的溶解只能通过消化来实现。厌氧消化过程中沼气的产生也取决于预处理污泥输入的质量。在80°C的预处理条件下，达到了最高的沼气累积体积(124 μ g codadd)。中温消化处理后的污泥矿化率最高，为65.9%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Linnaeus Eco-Tech

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