化学需氧量与氮的比例及盐度对序批式反应器性能的影响

Effect of COD/N ratio and salinity on the performance of sequencing batch reactors.

作者信息

Rene Eldon R, Kim Sung Joo, Park Hung Suck

机构信息

Department of Civil and Environmental Engineering, University of Ulsan, P.O. Box 18, Ulsan 680-749, Republic of Korea.

出版信息

Bioresour Technol. 2008 Mar;99(4):839-46. doi: 10.1016/j.biortech.2007.01.037. Epub 2007 Mar 23.

DOI:10.1016/j.biortech.2007.01.037

PMID:17383178

Abstract

The effects of COD/N ratio (3-6) and salt concentration (0.5-2%) on organics and nitrogen removal efficiencies in three bench top sequencing batch reactors (SBRs) with synthetic wastewater and one SBR with fish market wastewater were investigated under different operating schedules. The solids retention time (SRT, 20-100 days) and aeration time (4-10h) was also varied to monitor the performance. For synthetic wastewater, chemical oxygen demand (COD) removal efficiencies were consistently greater than 95%, irrespective of changes in COD/N ratio, aeration time and salt concentrations. Increasing the salt concentrations decreased the nitrification efficiency, while high COD/N ratio's favored better nitrogen removal (>90%). The treatment of real saline wastewater ( approximately 3.2%) from a fish market showed high COD (>80%) and nitrogen (>40%) removal efficiencies despite high loading rate and COD/N fluctuations, which is due to the acclimatization of the biomass within the SBR.

摘要

在不同运行时间表下，研究了化学需氧量与氮含量之比（3 - 6）和盐浓度（0.5 - 2%）对三个配备合成废水的台式序批式反应器（SBR）以及一个配备鱼市废水的SBR中有机物和氮去除效率的影响。还改变了固体停留时间（SRT，20 - 100天）和曝气时间（4 - 10小时）以监测性能。对于合成废水，无论化学需氧量与氮含量之比、曝气时间和盐浓度如何变化，化学需氧量（COD）去除效率始终大于95%。盐浓度增加会降低硝化效率，而高化学需氧量与氮含量之比有利于更好地去除氮（>90%）。尽管负荷率高且化学需氧量与氮含量波动，但对来自鱼市的实际含盐废水（约3.2%）的处理仍显示出较高的化学需氧量（>80%）和氮（>40%）去除效率，这是由于SBR内生物质的驯化作用。

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化学需氧量与氮的比例及盐度对序批式反应器性能的影响

Effect of COD/N ratio and salinity on the performance of sequencing batch reactors.

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