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[1]张芸蓓,马民,宫玲,等.A/A/O污水处理工艺脱氮效果模拟及优化[J].中国给水排水,2022,38(1):88-94.
　ZHANG Yun-bei,MA Min,GONG Ling,et al.Simulation of Denitrification of A/A/O Process and Its Optimization[J].China Water & Wastewater,2022,38(1):88-94.

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A/A/O污水处理工艺脱氮效果模拟及优化

中国给水排水[ISSN:1000-4062/CN:12-1073/TU] 卷: 第38卷期数: 2022年第1期页码: 88-94 栏目: 出版日期: 2022-01-01

Title:: Simulation of Denitrification of A/A/O Process and Its Optimization

作者:: 张芸蓓^1,2，马民³，宫玲³，吴限¹，曾勇³，李贝³，罗凡¹，陶涛¹; （1.华中科技大学环境科学与工程学院，湖北武汉 430074；2.武汉市规划设计有限公司，湖北武汉 430014；3.武汉市城市排水发展有限公司，湖北武汉 430070）

Author(s):: ZHANG Yun-bei^1，2， MA Min³， GONG Ling³， WU Xian¹， ZENG Yong³， LI Bei³， LUO Fan¹， TAO Tao¹; （1. School of Environmental Science & Engineering， Huazhong University of Science and Technology， Wuhan 430074， China； 2. Wuhan Planning and Design Co. Ltd.， Wuhan 430014，China； 3. Wuhan Urban Drainage Development Co. Ltd.， Wuhan 430070， China）

关键词:: A/A/O工艺; BioWin软件; 脱氮效果; 溶解氧; 碳氮比

Keywords:: A/A/O process; BioWin software; denitrification performance; dissolved oxygen; C/N ratio

摘要:: 针对武汉某污水处理厂因进水总氮浓度高、碳氮比值低而导致脱氮效果不稳定的问题，基于ASDM模型建立了该污水处理厂A/A/O工艺模型，并利用历史数据对脱氮效果进行了优化模拟。分别对硝化液回流比（0~600%）、好氧段DO（1~6 mg/L）、缺氧段DO（0.005~0.2 mg/L）、温度（16~29 ℃）等工艺运行参数进行了模拟分析，通过模型模拟筛选出的最优运行参数如下：硝化液回流比为100%，好氧段DO为1 mg/L，污泥回流比为65%，排泥量为550 m?/d，且缺氧段DO浓度越低越有利于脱氮。根据以上结论并结合该污水处理厂实际情况，确定如下优化实施方案：硝化液回流比为300%，好氧段DO为3 mg/L以下，同时关闭硝化液回流点前的曝气头以降低缺氧段DO，并按90 kg/d投加碳源（以COD计）。该污水处理厂按照上述方案实际运行2 个月，脱氮效果明显提高，出水总氮达标率达到100%。

Abstract:: To solve unstable denitrification caused by high total nitrogen and low BOD₅/TN ratio in influent of a wastewater treatment plant (WWTP) in Wuhan, an A/A/O process model was established based on activated sludge/anaerobic digestion model (ASDM), and the denitrification was optimized and simulated by using historical data. The influencing factors, such as reflux ratio of nitrifying liquid (0-600%), dissolved oxygen (DO) in aerobic zone (1-6 mg/L), DO in anoxic zone (0.005-0.2 mg/L) and temperature (16-29 ℃), were simulated and analyzed. The optimal operational parameters were as follows: reflux ratio of nitrification liquid of 100%, DO in aerobic zone of 1 mg/L, sludge reflux ratio of 65%, and sludge discharge amount of 550 m/d. It was found that low DO in the anoxic zone was more conducive to nitrogen removal. According to the above conclusions and the actual situation of the WWTP, the optimized plan was determined as follows: nitrifying liquid reflux ratio of 300%, DO in the aerobic zone of less than 3 mg/L, closing aerator before the nitrifying liquid reflux point to reduce DO in anoxic zone, and carbon source dosage (calculated by COD) of 90 kg/d. After two months of actual operation, the denitrification performance was improved obviously, and 100% of the total nitrogen samples reached the discharge standard.

更新日期/Last Update: 2022-01-01