利用混合分解技术改善活性污泥厌氧稳定过程

Q2 Agricultural and Biological Sciences
K. Grübel, A. Machnicka
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引用次数: 4

摘要

采用化学-热分解法对活性污泥进行厌氧稳定处理,有利于加强有机物的分解,提高整个过程的效率。本文介绍了碱化(pH≈9)和干冰(干冰体积1:0.75)混合崩解法对活性污泥性能和中温发酵过程影响的研究结果。试验结果表明,原污泥的COD值平均为100 mg/dm3,污泥经化学-热预处理后COD值提高至1890 mg/dm3。使用这种方法的污泥破坏,然后将其引入发酵反应器影响,取决于其体积,沼气产量和沼气产量。在添加50%混合分解污泥的样品中,沼气产量的最高增幅为2.933 dm3(与原始样品相比,产量提高了15.2%)。当混合分解污泥添加量为30%,有机物去除率为0.482 dm/gdry时,样品的沼气产量最高。混合分解过程易于在全技术规模下实现,而且不影响引入消化室的污泥的pH值(干冰中和先前的碱性污泥)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The use of hybrid disintegration of activated sludge to improve anaerobic stabilization process
The use of chemical-thermal disintegration method of activated sludge against anaerobic stabilization contributes to the intensification of the decomposition of organic compounds and the increase of the efficiency of the whole process. The paper presents the results of research on the impact of the hybrid disintegration method, using alkalization (pH ≈ 9) and freezing / thawing with dry ice (dry ice volume 1: 0.75) on the activated sludge properties and the mesophilic fermentation process. As a result of the conducted tests, it was found that for the raw sludge the COD value constituted on average 100 mg/dm3 and the chemical-thermal pretreatment of sludge resulted in an increase of COD value to 1890 mg/dm3. The use of this method of sludge destruction and then them introduction to the fermentation reactors influenced, depending on its volume, on biogas production and biogas yield. The highest increase in biogas production – 2.933 dm3 (better production by 15.2% in comparison to raw sample) was recorded for the sample with addition of 50% of hybrid disintegrated sludge. The highest yield of biogas was achieved in the sample with addition of 30% of hybrid disintegrated sludge – 0.482 dm/gdry organic matter removed. The hybrid process of disintegration is easy and simple to implementation in a full technical scale, and moreover, it does not affect on the pH value of sludge introduced into digestion chambers (dry ice neutralizes previously alkaline sludge).
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来源期刊
Inzynieria Ekologiczna
Inzynieria Ekologiczna Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
2.70
自引率
0.00%
发文量
0
审稿时长
8 weeks
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