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活性污泥和滴滤池在全规模生活污水处理厂中的脱氮。

Nitrogen removal in a full-scale domestic wastewater treatment plant with activated sludge and trickling filter.

机构信息

Tehran Sewerage Company, Tehran 15688, Iran.

出版信息

J Environ Public Health. 2013;2013:504705. doi: 10.1155/2013/504705. Epub 2013 Apr 28.

DOI:10.1155/2013/504705
PMID:23710197
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3655576/
Abstract

During the last decade, more stringent effluent requirements concerning the nutrients effluent values have been imposed by legislation and social concern. In this study, efficiency of total nitrogen removal in activated sludge and trickling filter processes (AS/TF) was investigated in Tehran North wastewater treatment plant. Biological system in this site was included, anoxic selector tank, aeration tank, final sedimentation, and trickling filter. A part of treated wastewater before chlorination was mixed with supernatant of dewatered sludge and fed to the trickling filter. Supernatant of dewatered sludge with high concentration of NH4-N was diluted by treated wastewater to provide complete nitrification in trickling filter Produced nitrate in trickling filter was arrived to the anoxic tank and converted to nitrogen gas by denitrification. According to the study result, low concentration of organic carbone and high concentration of NH4-N led to nitrification in TF, then nitrate denitrification to nitrogen gas occurred in selector area. NH4-N concentration decreased from 26.8 mg/L to 0.29 mg/L in TF, and NO3-N concentration increased from 8.8 mg/L to 27 mg/L in TF. Consequently, the total nitrogen decreased approximately to 50% in biological process. This efficiency has been observed in returned flow around 24% from final sedimentation into TF. It was concluded that, in comparison with biological nutrient removal processes, this process is very efficient and simple.

摘要

在过去的十年中,法规和社会关注对营养物废水排放值提出了更严格的要求。本研究考察了德黑兰北污水处理厂中活性污泥和滴滤池工艺(AS/TF)的总氮去除效率。该场地的生物系统包括缺氧选择器罐、曝气池、最终沉淀池和滴滤池。部分经过氯化处理前的废水与脱水污泥的上清液混合,并输送到滴滤池。脱水污泥的高浓度 NH4-N 上清液通过处理后的废水进行稀释,以在滴滤池中实现完全硝化。滴滤池产生的硝酸盐到达缺氧池,并通过反硝化转化为氮气。根据研究结果,低浓度的有机碳和高浓度的 NH4-N 导致 TF 中的硝化作用,然后硝酸盐反硝化作用在选择区发生,将硝酸盐转化为氮气。NH4-N 浓度从 26.8mg/L 降低到 TF 中的 0.29mg/L,NO3-N 浓度从 8.8mg/L 增加到 TF 中的 27mg/L。因此,总氮在生物过程中减少了约 50%。在从最终沉淀池回流约 24%到 TF 的情况下观察到了这种效率。研究结果表明,与生物脱氮工艺相比,该工艺非常高效且简单。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ccfb/3655576/ef36d4e6cf00/JEPH2013-504705.008.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ccfb/3655576/7e32841c8e7b/JEPH2013-504705.001.jpg
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