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异养硝化细菌Pseudomonas putida YH的脱氮特性及降解动力学

本站小编 Free考研考试/2021-12-31

中文关键词异养硝化好氧反硝化恶臭假单胞菌脱氮动力学 英文关键词heterotrophic nitrificationaerobic denitrificationPseudomonas putidanitrogen removalkinetic
作者单位E-mail
汪旭晖西安建筑科技大学环境与市政工程学院, 西安 710055351882692@qq.com
杨垒西安建筑科技大学环境与市政工程学院, 西安 710055yangleixauat@126.com
任勇翔西安建筑科技大学环境与市政工程学院, 西安 710055
陈宁西安建筑科技大学环境与市政工程学院, 西安 710055
肖倩西安建筑科技大学环境与市政工程学院, 西安 710055
崔珅西安建筑科技大学环境与市政工程学院, 西安 710055
郦丹中国联合工程有限公司, 杭州 310052
中文摘要 针对传统污水处理过程脱氮处理效率低、工艺流程复杂、抗高氨氮冲击负荷能力弱等问题,以具有高效脱氮能力的异养硝化细菌Pseudomonas putida YH为研究对象,开展其生理生化特性、脱氮性能、影响因子及动力学分析.结果表明,菌株YH具有高效的异养硝化能力,氨氮最大去除率达99.1%,约53%的去除总氮转化为胞内氮,反应过程仅有少量的硝化中间产物积累;菌株YH还能够在好氧条件利用亚硝酸盐和硝酸盐进行生长代谢,最大去除率分别为99.8%和99.5%.同时,结合反硝化功能基因napAnirK的PCR成功扩增,进一步证明菌株YH具有好氧反硝化特性;菌株YH生长特性与Logistic模型相匹配(R2>0.99),氮素降解过程则符合Compertz模型(R2>0.99),拟合所得氮素最大转化速率Rm为氨氮 > 硝氮 > 亚硝氮,迟滞时间t0为硝氮 > 亚硝氮 > 氨氮;异养硝化最佳的条件是碳源为琥珀酸钠、C/N=10、T=30℃、r为160~200 r·min-1以及pH=7,最优条件下平均氨氧化速率和Rm分别为8.35 mg·(L·h)-1和16.71 mg·(L·h)-1;菌株YH能够适应较宽范围的氨氮负荷,在高氨氮浓度下(1000 mg·L-1)仍具有较高的异养硝化能力,体现了菌株YH具有处理高氨氮废水的潜能. 英文摘要 Due to the low nitrogen removal efficiency, lengthy procedure, and vulnerability to high loads of ammonium of the traditional sewage treatment process, the physiological characteristics, nitrogen removal characteristics, influencing factors, and kinetic analysis were systematically studied for the heterotrophic nitrifier Pseudomonas putida YH, which has efficient nitrogen removal ability. The results showed that strain YH exhibited efficient heterotrophic nitrification ability with a low accumulation of nitrification products. The maximum ammonium removal rate was 99.1%, and nearly 53% of the removed TN was converted to intracellular nitrogen. In addition, nitrite and nitrate could also be metabolized by strain YH under aerobic conditions, with a maximum removal rate of 99.8% and 99.5%, respectively. Additionally, the successful PCR amplification of the napA and nirK genes further improved the aerobic denitrification characteristics of strain YH. The bacterial growth process of strain YH matched the Logistic model (R2>0.99), and the nitrogen degradation conformed to the Compertz model (R2>0.99). The order of the maximum conversion rates of nitrogen (Rm) was ammonia > nitrate > nitrite, and that of the lag time (t0) was nitrate > nitrite > ammonia. The optimal conditions for heterotrophic ammonium oxidation with strain YH were succinate as the carbon source, C/N=10, T=30℃, r=160-200 r·min-1, and pH=7.0. Under the optimal conditions, the average ammonia oxidation rate and Rm were 8.35 and 16.71 mg·(L·h)-1, respectively. Strain YH could adapt to a broad range of ammonium loads. A high ammonium removal rate was observed under high ammonium concentrations (1000 mg·L-1), indicating the high potential of strain YH for application in high-strength ammonium wastewater treatment.

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