废水中磺胺甲噁唑在A/O-MBR工艺中的去除机理

来源 :中国给水排水 | 被引量 : 0次 | 上传用户:hu_jie
下载到本地 , 更方便阅读
声明 : 本文档内容版权归属内容提供方 , 如果您对本文有版权争议 , 可与客服联系进行内容授权或下架
论文部分内容阅读
抗生素药物在医院污水中广泛存在,传统的处理工艺对其未能妥善拦截,这些抗生素被排入城市污水厂后,将引起耐药菌及相应抗性基因的传播,进而影响水环境生态安全。为降低对城镇受纳水体的生态危害,揭示废水中磺胺甲噁唑(SMX)的去除机理,采用梯度驯化与批次试验的方法,分析磺胺甲噁唑对A/O-MBR工艺的影响及其降解、吸附和水解情况。结果表明,SMX对COD、氨氮的去除影响较小。SMX浓度的提高,会在短期内抑制反硝化活性,从而引起TN去除效果的波动。抗生素浓度从零逐步升高至3 mg/L时,厌氧释磷速率下降了46.65%,造成TP去除率下降29.16%。反应器经过一定的驯化后可对SMX产生较好的去除能力,SMX浓度从0.5 mg/L提高至1 mg/L以后,其去除率均在95%以上。生物降解是SMX的主要去除途径,吸附、水解作用对于SMX的去除贡献不足千分之一。 Antibiotics are widely existed in hospital sewage. The traditional treatment process fails to properly intercept them. When these antibiotics are discharged into the municipal wastewater treatment plant, they will cause the spread of resistant bacteria and corresponding resistance genes, which will affect the ecological safety of water environment. In order to reduce the ecological harm to urban receiving water, to reveal the removal mechanism of sulfamethoxazole (SMX) in wastewater, the effect of sulfamethoxazole on A / O-MBR process was analyzed by gradient acclimation and batch test. Its degradation, adsorption and hydrolysis. The results showed that SMX had little effect on COD and ammonia nitrogen removal. The increase of SMX concentration will inhibit the denitrification activity in a short time, which will cause the fluctuation of TN removal effect. When the concentration of antibiotics increased gradually from zero to 3 mg / L, the anaerobic phosphorus release rate decreased by 46.65%, resulting in a decrease of TP removal rate of 29.16%. After some domestication, SMX could be well removed. After SMX concentration increased from 0.5 mg / L to 1 mg / L, the removal rate of SMX was over 95%. Biodegradation is the main route for the removal of SMX. Adsorption and hydrolysis contribute less than 1 in 1000 to the removal of SMX.
其他文献
就在国家环保总局做出“十一五”期间我国全社会环保投资将比“十五”期间增加近一倍的预测时,近从上海化工区管理委员会获得信息:上海将投入150亿巨资进行化工区环境建设与
11月20日,由蚌埠玻璃工业设计研究院利用具有自主知识产权技术在安徽华光光电材料科技集团原日熔化500吨浮法线上改造的中国第一条浮法玻璃熔窑全氧燃烧生产线余热发电工程一
1自然概况河南县地处青海省东南部,海拔3600-4200米,整个地势东北高西北低,全县草地面积65.649万公顷,可利用草地面积60.913万公顷,占草地总面积的92.78%,平均亩产可食鲜草44
定位是高职教育发展的关键。高职教育应在教育层次与类型、办学模式、专业设置、课程建设、人才培养模式、教师队伍建设模式等方面进行科学定位。 Positioning is the key t
请下载后查看,本文暂不支持在线获取查看简介。 Please download to view, this article does not support online access to view profile.
On December 2,2016,the Second Circuit Court of the Supreme People’s Court proclaimed the judgment of the Nie Shubin case for intentional homicide and rape in p
仔猪是发展养猪生产的基础,仔猪饲养是提高养猪生产经济效益的关键,特别是新生仔猪,在寒冷的冬季,如不采取积极的防护,死亡率很高,有的高达50%以上。尤其是新生仔猪,若能渡过
核心提示:水泥行业要实现可持续发展,必须要解决两方面问题:其一,实现节能减排,最大限度地降低对能源、资源消耗以及对环境的影响,走低碳发展道路;其二,水泥行业应利用自身独
近年来,随着社会的发展进步,交通运输条件的改善和人民生活水平的提高,牲畜的运输量频繁,交易量迅猛增加,给动物防疫工作增加了新的难度,引发动物疫病的可能性越来越大,为了
基层动物防疫机构是农业社会服务体系的重要组成部分,是畜牧业稳定发展的基本保证。经过多年的努力,我县各级动物防疫机构在畜禽疫病防治及畜产品质量安全上做了大量的工作,