A/O与SBR工艺处理猪场废水厌氧消化液对比研究

蔡英英; 韩志刚; 邓良伟; 王文国

文章摘要

蔡英英,韩志刚,邓良伟,王文国.A/O与SBR工艺处理猪场废水厌氧消化液对比研究[J].农业环境科学学报,2022,41(3):648-657.

A/O与SBR工艺处理猪场废水厌氧消化液对比研究

Comparative study on A/O and SBR processes for the treatment of digested effluent of swine wastewater

投稿时间：2021-08-09

DOI：10.11654/jaes.2021-0895

中文关键词: 猪场废水厌氧消化液 A/O SBR Stover-Kincannon模型

英文关键词: swine wastewater digested effluent anoxic/oxic process sequencing batch reactor Stover-Kincannon model

基金项目:国家现代农业产业技术体系(CARS-35)

作者	单位	E-mail
蔡英英	农业农村部沼气科学研究所, 农业农村部可再生能源开发利用重点实验室, 成都 610041
韩志刚	福州共创环保技术有限公司, 福州 350000
邓良伟	农业农村部沼气科学研究所, 农业农村部可再生能源开发利用重点实验室, 成都 610041	dengliangwei@caas.cn
王文国	农业农村部沼气科学研究所, 农业农村部可再生能源开发利用重点实验室, 成都 610041

摘要点击次数: 1363

全文下载次数: 806

中文摘要:

缺氧/好氧工艺（A/O）与序批式活性污泥法（SBR）是应用最为广泛的猪场废水厌氧消化液好氧处理工艺，但两者的处理性能孰优孰劣，目前尚无定论。基于此，本研究对比了实验室规模的A/O与SBR工艺处理猪场废水厌氧消化液的性能。结果表明：两种工艺直接处理猪场废水厌氧消化液，出水pH值下降至6以下，平均NH_{4_{⁺-N去除率均低于50%，但SBR的NH_{4_{⁺-N去除率略高于A/O。补充碱度后，4个氮负荷（0.02，0.04，0.06，0.08 kg·kg^-1·d^-1）下，两种工艺的NH_{4_{⁺-N去除率提高到99%以上，但对COD、TN和TP去除的改善不明显，并且A/O与SBR对COD、NH_{4_{⁺-N、TN、TP去除效果无显著差异。活性试验表明，SBR的氨氧化活性和厌氧氨氧化活性高于A/O，但是反硝化活性要显著低于A/O。Stover–Kincannon模型与试验数据拟合良好（R²>0.9），A/O和SBR对COD、TN、NH_{4_{⁺-N的最大去除负荷（U_max）分别为7.62、0.28、48.8 g·L^-1·d^-1和7.18、0.13、65.4 g·L^-1·d^-1，说明SBR有利于NH_{4_{⁺-N转化，而A/O有利于COD与TN去除。}}}}}}}}}}}}

英文摘要:

The anoxic/oxic(A/O) process and sequencing batch reactor(SBR) process are popular aerobic biological processes for the treatment of digested effluent of swine wastewater. However,it is unclear which process has better performance. Therefore,laboratory-scale A/O and SBR processes were applied to compare their performance for the treatment of digested effluent of swine wastewater. The results showed that when the A/O and SBR processes were used to treat the digested effluent directly,the pH decreased to less than 6,thereby resulting in an average NH₄⁺-N removal efficiency of less than 50%. However,the NH₄⁺-N removal efficiency in the SBR process was slightly higher than that in the A/O process. After the digested effluent was supplemented with alkalinity,the NH₄⁺-N removal efficiency in the two processes was improved to more than 99%. However,the improvement of the removal efficiencies of chemical oxygen demand (COD),total nitrogen(TN),and total phosphorus(TP) was not clear. There was no significant difference between the A/O and SBR processes in removing COD,NH₄⁺-N,TN,and TP. Higher NH₄⁺ oxidation and anammox activities were observed in the SBR process than in the A/O process,whereas the denitrification activity in the SBR process was much lower than that in the A/O process. The modified Stover- Kincannon model best fit the experimental data(R₂>0.9). The maximum COD,TN,and NH₄⁺-N utilization rates were 7.62,0.28,and 48.80 g·L^-1·d^-1 in the A/O process, and 7.18,0.13,and 65.4 g·L^-1·d^-1 in the SBR process,respectively. The results suggest that the SBR process is more favorable for NH + 4-N conversion,whereas the A/O process is more favorable for COD and TN removal.

HTML 查看全文查看/发表评论下载PDF阅读器