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污染控制技术及原理

Effect of acetate and inorganic salts on the performance of a partial nitritation reactor

摘要：通过间歇试验和连续流反应器的运行试验,探索了实现部分亚硝化反应的控制条件,考察了乙酸钠和无机盐对部分亚硝化工艺效能的影响.结果表明,通过控制进水碱度、溶解氧和水力停留时间,可在气升式反应器中实现稳定的部分亚硝化,反应器出水适宜后续厌氧氨氧化反应器处理.乙酸钠对部分亚硝化反应器的运行性能有重大影响.添加乙酸钠后,反应器出水氨氮浓度不变,亚硝氮、硝氮和总氮浓度减小,且变化程度与所添加的有机物浓度呈正相关,乙酸钠引发反硝化是造成影响的主要原因.短期批次试验表明,在摩尔浓度相同的条件下,NaCl、KCl和Na₂SO₄对氨氧化活性的影响程度接近,盐浓度为150mmol·L^-1时,氨氧化活性为未添加盐时的60%.连续流试验证明,通过逐渐提高盐浓度,部分亚硝化反应器能适应25g·L^-1盐度的水质.当盐度大于27g·L^-1时,出水水质不合要求.亚硝酸细菌对高盐度胁迫比硝酸细菌敏感.

Abstract：The process conditions for partial nitritation and the feasibility of a partial nitritation reactor for treatment of effluents containing residual carbonaceous compounds and in some cases high salt concentrations were evaluated with batch tests and a continuous-flow experiment.The results showed that stable partial nitritation could be achieved by control of influent basicity,dissolved oxygen and hydraulic retention time.When acetate was used,concentrations up to 800 mg·L^-1 did not exert significant effect on the ammonia oxidation to nitrite.But values higher than 500 mg·L^-1 resulted in a high denitrification rate,with a detrimental effect on the quality of the effluent from the partial nitritation reactor that should be further treated in an anammox process.When NaCl,KCl and Na₂SO₄ were tested in batch experiments,similar inhibitory effects were encountered.Molar concentrations of 150 mmol·L^-1 caused 40% inhibition of the maximum specific ammonia oxidizing activity.The effect of NaCl on the operation of the partial nitritation reactor was tested at concentrations between 0 and 30 g·L^-1.The ammonia oxidation activity remained stable in the presence of 25 g·L^-1,while higher salt concentrations up to 27 g·L^-1 provoked a great decrease in the activity.Nitrite oxidizers were less affected by salt stress as compared to ammonia oxidizers.

Key words：partial nitritation wastewater nature organic matter salinity performance