日本恶臭排放标准体系研究及对中国的借鉴

日本是世界上第一个对恶臭防治进行立法的国家,经过50多年的发展,日本形成了以“22种特定恶臭物质”和“臭气指数”为管控指标的恶臭排放标准体系,对产生恶臭企业的厂界、排气筒和外排水进行排放管控。本文着重介绍两类管控指标在三个管控点位排放标准的制定依据和计算方法,这是日本恶臭排放标准体系精细化程度高、基础研究扎实的具体体现,对我国的标准制定和恶臭基础研究具有很强的借鉴意义。日本以“不引起周边居民反感”的臭气强度范围2.5～3.5作为厂界排放标准限值制定依据,通过对特定恶臭物质/臭气指数与臭气强度的关系研究,制定厂界排放标准范围,并且规定市区町村根据地区自然和社会条件,因地制宜制定地方标准。日本排气筒排放限值依据厂界限值通过模型计算得到,受地形、天气等因素影响,一厂一标准。臭气指数的外排水标准通过厂界限值计算得到,特定恶臭物质的外排水标准限值通过研究恶臭物质在水和大气中的影响关系得到。我国国标制定了排放标准的下限,各省（区、市）在国标基础上制定了更为严格的排放标准。日本1313个市区町村在国法的范围内制定了地方标准,而我国的恶臭地方标准非常少。我国同时执行8项特定恶臭物质和臭气浓度标准,并规...     

Effect of Mn2+ on the phosphorus removal and bioflocculation under anoxic condition

Manganese ion (Mn²⁺) generated from metallurgical, steel making and chemical industries enters sewage treatment plants and affects the sludge activity and flocculation. The effect of Mn²⁺ on the removal of chemical oxygen demand (COD) and total phosphorus (TP) and sludge activity were investigated in anoxic zone of an anaerobic/anoxic/oxic (A²O) process. The compositions and structures of extracellular polymeric substances (EPS) were characterized using three-dimensional excitation emission matrix fluorescence spectroscopy (3D-EEM), X-ray photoelectron spectroscopy (XPS) and Fourier transform infrared spectroscopy (FTIR) to reveal the relationship among Mn²⁺, EPS and sludge flocculation.The results showed that low concentration of Mn²⁺ (<5 mg/L) improved removal efficiencies of COD and TP and increased the activity of alkaline phosphatase, acid phosphatase and dehydrogenase. Meanwhile, the addition of Mn²⁺ increased total EPS, sludge contact angle, Zeta potential and sludge particle size, and thus enhanced sludge flocculation. However, high concentration of Mn²⁺ (>10 mg/L) hindered microbial flocculation and reduced removal efficiencies of the pollutants. When Mn²⁺was 5 mg/L, removal efficiencies of COD and TP reached 65% and 90%, respectively. Sludge flocculation was the best and SVI was 70.56 mL/g. The changes of Mn²⁺ concentration caused deviation of groups’ compositions in LB-EPS and TB-EPS, where the main components were always protein (PN) and polysaccharide (PS). The addition of Mn²⁺ resulted in the degradation of humic acids. However, it did not give rise to significant morphology changes of EPS.     

白腐菌联合纳米零价铁强化去除水中Cd(II)

采用白腐菌和纳米零价铁(nZVI)联合体系强化去除水中Cd (II),并考察pH值、Cd (II)初始浓度、温度、nZVI投加量对Cd (II)去除的影响,分析nZVI对白腐菌胞内外富集镉的影响特性,同时结合扫描电镜、红外光谱、X射线光电子能谱、三维荧光光谱等手段分析联合体系对Cd (II)的强化去除机制.结果表明,在pH=6,Cd (II)初始浓度为50mg/L,温度为30℃,nZVI投加量为0.1g/L的条件下反应180min后,Cd (II)的去除率可达到99.5%以上.联合体系对Cd (II)的去除过程符合准二级动力学,主要去除机制为白腐菌对Cd (II)的胞外络合吸附,添加nZVI能促进白腐菌对Cd (II)的胞外吸附,FTIR和XPS分析表明,羟基、羧基和氨基参与了Cd (II)的吸附,白腐菌胞外聚合物(EPS)能与铁发生内层配位形成P-O-Fe键,加速富含羟基官能团的纤铁矿、磁铁矿等铁矿物形成,从而促进对溶液中Cd (II)的吸附去除.