“A/RPIR+磁混凝沉淀”组合工艺处理城镇废水的稳定运行效能分析

“A/RPIR+磁混凝沉淀”组合工艺具有运行能耗低,投资节省,占地少,运行稳定,出水水质好等优势,已在河道黑臭水体治理及市政污水处理领域得到广泛应用。本文对某市政污水处理厂(A/RPIR+磁混凝沉淀工艺、设计规模10×10^(4)m^(3)/d)的稳定运行效能进行分析评估。结果表明,水厂出水水质全部稳定达标,年平均吨水电耗为0.196kWh,产出泥饼含水率相对稳定,平均为79.5%,日泥饼产量为74.1 t,污泥产率为1.14×10^(4)TDS/m^(3)。污水厂整体运行效能良好。

膜分离技术在城镇废水处理的应用进展研究

随着社会的发展,城镇废水污染物成分越来越复杂,可生化性差,而城镇污水处理厂污染物排放标准不断提高,这对城镇废水处理技术提出了新的要求。膜分离与生物法联用处理技术是污水深度处理的有效途径,得到越来越广泛的应用。本文简述了膜分离技术在在城镇废水处理领域的应用进展,对比分析了膜生物反应器、连续膜过滤、浸没式膜过滤、双向膜过滤等四种膜过滤技术的应用特点。

混凝沉淀+A^2/0工艺处理化工、城镇混合废水

采用混凝沉淀+A2/0工艺处理化工、城镇混合废水。在化工废水经有效预处理的条件下,该工艺处理效果良好,出水水质达到《污水综合排放标准》(GB8978-1996)中的一级标准。

城镇污水处理技术清洁性的评估

城镇污水处理工艺的清洁性是指其在处理污水过程中所付出的资源、能源和环境代价，不仅包括其运行期间的“末端”污染物排放，还包括从其获取自然资源和能源开始直至最后拆除的整个过程所产生的各种环境问题。运用LCA可对污水处理技术从“摇篮至坟墓”的生命周期角度评估其清洁性，能确切地取得其生命周期内各阶段输入和输出的物料、能耗以及各种环境影响的量化清单，并以此为基础进行环境影响评估和完善化分析。通过清洁性评估可有助于污水处理工艺的创新、选择和决策，从而以最小的资源和环境代价去解决城市污水的污染问题，满足我国可持续发展的战略要求。

水力停留时间对生物电化学系统性能影响研究

采用电极生物电化学系统（BES）处理模拟城镇废水,研究水力停留时间分别为6h、12h、18h和24 h时,BES反应器对于废水中COD、氨氮、总氮去除效果及其产电性能.实验发现：综合考虑BES系统去除污染物性能和产电性能,最佳水力停留时间为12～18h;随着水力停留时间的增加,BES反应器对COD去除效果先增加后逐渐趋于稳定,NH4＋-N和总氮的去除率变化不大;BES反应器对COD、NH4＋-N和总氮的去除率最高可达92.1％、99.3％和98.8％;在阴极和阳极间500Q电阻两端最高可以产生98 mV电压,电压和COD的处理效果有一定联系.

Full scale application of combined SBF-AS process for municipal wastewater treatment in small towns and cities in China

The combined submerged biofilm （ SBF）-activated sludge （AS） process for treatment of municipal wastewater in a small city in China is described in this paper. The process exhibited high removal efficiencies for carbonaceous substances, nitrogen and phosphorus which mainly took place in the combined SBF-AS biore- actor. The SBF-AS bioreactor was divided into pre-anoxic, anaerobic, anoxic and aerobic zones from inlet to outlet, in which fixed biofilm carriers were packed. Excellent performance had been obtained under normal operating conditions in more than one year of operation in Dong＇ e municipal WWTP, Shandong province, with mean removal efficiencies of BOD5 93.4%, COD 88%, SS 92%, NH4 - N 82. 1%, TP 75% and TN 66.7%, and quite high effluent quality such as BOD5 6 to 10 rag/L, COD 20 to 40 rag/L, SS 5 to 10 rag/L, TN 10 to 20 rag/L, NH4 - N 4 to 8 mg/L and TP 0. 6 to 1.0 mg/L. The effluent was reused multi-purposely, such as toilet flushing, green belt watering and artificial lake pounding. Simultaneous nitrification and denitrification took place due to the DO gradient in biofilm in aerobic zone of the SBF-AS bioreactor, which made TN removal efficiency improved remarkably in system. Some activated sludge was returned from final clarifiers to the bioreactor for phosphorus removal. The process had the advantages of low investment and low operational/ maintenance （O/M） costs, low sludge yield and was preferably employed in small towns and cities.

固体型聚合硅酸硫酸铁及生产方法

固体型聚合硅酸硫酸铁(简称SPFSS)，足一种复合型无机高分子絮凝剂。是以硫酸亚铁、硅酸钠为原料，于反应容器中用硝酸将硫酸亚铁氧化为硫酸铁与活性硅酸(用盐酸调节硅酸钠溶液pH值制得)发生共聚反应，在调聚稳定剂的作用下，通入硫酸聚合得到半成品，经陈化、粉碎后即得到固体型聚合硅酸硫酸铁成品。该产品应用于给水、工业污水、城镇废水的净化处理，获得优良的净水效果，降浊率、去色率达95％以上。