遵化市：实施四项工程减排 努力削减全市主要污染物排放存量

一是实施水泥企业淘汰机立窑工程。今年一季度共拆除3家水泥厂的机立窑生产设备,预计可削减二氧化硫210吨。二是实施取缔北部山区“小竖炉群”工程。削减二氧化硫955吨。三是实施城市污水处理工程。城市污水处理厂8万吨污水／日处理工程已经进入试运行,     

石化污水处理场挥发性有机物排放状况研究

采用便携式气相色谱-质谱联用仪时石化污水处理场排放的挥发性有机物的排放状况进行了测定.检测出的挥发性有机物中以烷烃和芳香烃为主,总浓度随污水处理工艺流程逐级降低.芳香烃的质量分数为33.23%～84.73%.     

A^2/O工艺在邳州城北污水处理厂的应用

邵州城北污水处理厂工程设计规模4×104m3/d,分2期实施,采用A2/O活性污泥工艺对污水进行二级生化处理.介绍了该工程的工艺流程、设计参数和主要构筑物,并通过对工艺调试和试生产运行过程的分析,提出今后生产运行的优化调整建议.     

新农村生活污水处理设施问题初探

农村生活污水无害化排放不仅是新农村建设的要求,也是改善农村居民生活环境的需要。本文分析了中国新农村生活污水部分处理设施存在的问题及原因,并针对新农村生活污水处理设施在工程设计、施工、监管和运行管理上提出了一些探讨性的建议,期望能为中国新农村污水处理设施的建设提供有益的参考作用。     

污水处理设施建设与运营模式浅析

详细介绍了国外污水处理设施建设与运营的管理经验,分析了英国、美国、法国和荷兰等典型管理模式的特点,阐述了中国污水处理事业的发展历程,调研了目前国内并存的事业体制、企业化管理、委托运营、DBO（设计-建设-运营）、特许经营、股权转让、合资合作、完全私有化、用户和社区资助等模式并逐一进行分析,指出了中国污水处理设施建设与运营的发展方向,认为应尽量慎重考虑涉及产权的特许经营模式,着力推广DBO模式。     

渗滤系统处理北方城市生活污水微生物数量变化的研究

本文应用粉煤灰渗滤系统处理北方寒冷地区城市污水,结果细菌数量去除率在89.6%—99.9%之间,粪大肠菌群数量去除率在90%—99.9%之间,此方法成本低、效果好,适合北方中小城镇污水处理。     

城镇污水厂污泥处理处置技术政策探讨

通过对《城镇污水处理厂污泥处理处置及污染防治技术政策(试行)》提出的各种污泥处理处置方式进行技术和经济可行性分析,评述其可操作性。认为含水率80%的污泥集中处理处置设施不宜采用厌氧消化、堆肥、填埋和热干化技术,实行污泥在污水厂内脱水至含水率60%以下是污泥处理处置节能减排最有效的措施。     

污水处理中紫外消毒效果的研究

紫外消毒技术相对于氯化法消毒,能够快速、有效地去除污水中粪大肠杆菌,操作简单方面,无副产物生成,对周围环境和人员安全可靠,在中国许多污水处理厂都已取代氯化法消毒并广泛应用。阐述了紫外消毒和微生物光复活现象的原理,并通过大量试验来研究紫外消毒技术去除粪大肠杆菌的效果,及经紫外消毒后出水中粪大肠杆菌光复活现象对紫外消毒效果的影响,提出可采用出水避光排放、增加紫外照射剂量、延长照射时间等方法来控制微生物光复活现象。     

磁效应对活性污泥法处理污水的作用机理及其应用

文章在总结国内外文献的基础上,对磁效应在活性污泥法工艺处理污水中的作用机理及应用进行了介绍和综述。总结出了应用磁效应能使活性污泥的结构得到改善,污泥的沉降性能、污泥中微生物活性及抗污染物冲击负荷能力都优于普通活性污泥。     

Pollutants removal and simulation model of combined membrane process for wastewater treatment and reuse in submarine cabin for long voyage

A laboratory scale test was conducted in a combined membrane process (CMP) with a capacity of 2.91 m3/d for 240 d to treat the mixed wastewater of humidity condensate, hygiene wastewater and urine in submarine cabin during prolonged voyage. Removal performance of chemical oxygen demand (COD), ammonia nitrogen (NH4 +-N), turbidity and anionic surfactants (LAS) was investigated under di erent conditions. It was observed that the e uent COD, NH4 +-N, turbidity and LAS flocculated in ranges of 0.19–0.85 mg/L, 0.03–0.18 mg/L, 0.0–0.15 NTU and 0.0–0.05 mg/L, respectively in spite of considerable fluctuation in corresponding influent of 2120–5350 mg/L, 79.5–129.3 mg/L, 110–181.1NTU and 4.9–5.4 mg/L. The e uent quality of the CMP could meet the requirements of mechanical water and hygiene water according to the class I water quality standards in China (GB3838-2002). The removal rates of COD, NH4 +-N, turbidity and LAS removed in the MBR were more than 90%, which indicated that biodegradation is indispensable and plays a major role in the wastewater treatment and reuse. A model, built on the back propagation neural network (BPNN) theory, was developed for the simulation of CMP and produced high reliability. The average error of COD and NH4 +-N was 5.14% and 6.20%, respectively, and the root mean squared error of turbidity and LAS was 2.76% and 1.41%, respectively. The results indicated that the model well fitted the laboratory data, and was able to simulate the removal of COD, NH4 +-N, turbidity and LAS. It also suggested that the model proposed could reflect and manage the operation of CMP for the treatment of the mixed wastewaters in submarine.