六氯苯和重金属复合污染沉积物的电动力学修复研究

以某化工厂排污沟渠中受六氯苯(hexachlorobenzene,HCB)、锌和镍复合污染的实际沉积物为对象,研究非离子表面活性剂OP-10对沉积物中污染物的增溶解吸效果和电动力学修复污染物的强化迁移效果。解吸实验结果表明:OP-10对HCB增溶解吸效果较好,对重金属离子的解吸有一定的促进作用。电动力学修复发现,随电渗析流进入沉积物中的OP-10很快的吸附在靠近阳极沉积物上,从而阻碍了助剂的输送并影响HCB的迁移,而靠近阴极区域沉积物中的有机质迁移会促进HCB的去除。沉积物pH变化引起的重金属沉淀是制约锌迁移的主要因素。镍的整体迁移效果不明显。     

一体化膜生物反应器处理低C/N污水试验研究

研究一体化连续流间歇曝气膜生物反应器(IMBR)处理低C/N城市污水的工艺效能。试验结果表明:反应器在曝气2 h、搅拌2 h的运行模式下,对COD、NH4+-N、TN和SS的平均去除率分别达到了87%,83.4%,75.4%和97.81%,各出水质量浓度平均值分别为17.5,4.59,7.63和2 mg/L,出水水质达到了GB/T18920-2002《城市污水再生利用城市杂用水水质》标准。     

隧道废气环境影响评价方法及影响预测

以天津某隧道工程环评为例,介绍了隧道NOX排放量的计算方法;采用高斯模式预测了风塔下风向NO2扩散浓度,计算结果表明在排放口下风向129 m范围内、空间69～73 m高度范围内NO2浓度超标;采用TOP模式预测了峒口下风向NO2的扩散浓度,计算结果表明峒口下风向30 m范围内NO2浓度超标;提出了隧道工程废气污染控制措施。     

Combustion and inorganic bromine emission of waste printed circuit boards in a high temperature furnace

High temperature combustion experiments of waste printed circuit boards (PCBs) were conducted using a lab-scale system featuring a continuously-fed drop tube furnace. Combustion efficiency and the occurrence of inorganic bromine (HBr and Br₂) were systematically studied by monitoring the main combustion products continuously. The influence of furnace temperature (T) was studied from 800 to 1400 °C, the excess air factor (EAF) was varied from 1.2 to 1.9 and the residence time in the high temperature zone (RT_HT) was set at 0.25, 0.5, or 0.75 s.Combustion efficiency depends on temperature, EAF and RT_HT; temperature has the most significant effect. Conversion of organic bromine from flame retardants into HBr and Br₂ depends on temperature and EAF. Temperature has crucial influence over the ratio of HBr to Br₂, whereas oxygen partial pressure plays a minor role. The two forms of inorganic bromine seem substantially to reach thermodynamic equilibrium within 0.25 s. High temperature is required to improve the combustion performance: at 1200 °C or higher, an EAF of 1.3 or more, and a RT_HT exceeding 0.75 s, combustion is quite complete, the CO concentration in flue gas and remained carbon in ash are sufficiently low, and organobrominated compounds are successfully decomposed (more than 99.9%).According to these results, incineration of waste PCBs without preliminary separation and without additives would perform very well under certain conditions; the potential precursors for brominated dioxins formation could be destroyed efficiently. Increasing temperature could decrease the volume percentage ratio of Br₂/HBr in flue gas greatly.     

Thermal conversion of municipal solid waste via hydrothermal carbonization: comparison of carbonization products to products from current waste management techniques

Hydrothermal carbonization (HTC) is a novel thermal conversion process that may be a viable means for managing solid waste streams while minimizing greenhouse gas production and producing residual material with intrinsic value. HTC is a wet, relatively low temperature (180-350 °C) thermal conversion process that has been shown to convert biomass to a carbonaceous residue referred to as hydrochar. Results from batch experiments indicate HTC of representative waste materials is feasible, and results in the majority of carbon (45-75% of the initially present carbon) remaining within the hydrochar. Gas production during the batch experiments suggests that longer reaction periods may be desirable to maximize the production of energy-favorable products. If using the hydrochar for applications in which the carbon will remain stored, results suggest that the gaseous products from HTC result in fewer g CO(2)-equivalent emissions than the gases associated with landfilling, composting, and incineration. When considering the use of hydrochar as a solid fuel, more energy can be derived from the hydrochar than from the gases resulting from waste degradation during landfilling and anaerobic digestion, and from incineration of food waste. Carbon emissions resulting from the use of the hydrochar as a fuel source are smaller than those associated with incineration, suggesting HTC may serve as an environmentally beneficial alternative to incineration. The type and extent of environmental benefits derived from HTC will be dependent on hydrochar use/the purpose for HTC (e.g., energy generation or carbon storage).     

TiO2介孔球的合成及其对双酚A的光催化降解

以不同的含钛化合物作为原料,在无模板条件下经一步溶剂热法合成了两种TiO2介孔球——TiO2-1和TiO2-2。对两种TiO2介孔球的形貌进行了表征,结果表明:TiO2-1和TiO2-2粒径分别为5.7 nm和8.0 nm;比表面积分别为159.4 m2/g和128.3 m2/g;孔径约为4.0 nm和5.0 nm。采用P25型TiO2、TiO2-1和TiO2-2对双酚A溶液进行光催化降解反应。在催化剂加入量为0.5 mg/L的条件下降解60 min,双酚A去除率分别为76.3%,99.7%,98.5%。TiO2-1和TiO2-2的光催化效果优于P25型TiO2,且TiO2-1的光催化效果更好。     

大型垃圾填埋场垃圾稳定化研究

本文对大型垃圾填埋场内不同填埋时间垃圾四个组分 (总糖、有机质、生物可降解物和粗纤维 )含量进行了分析 ,并对各指标随填埋时间的变化趋势进行了讨论。结果表明 :在试验场封场后不久 ,垃圾取样均匀性不能保证 ,各指标随时间变化波动很大 ;封场 71 8d后 ,各指标随时间变化呈现一定的规律性 ,垃圾的生物可降解物含量变化能较好地反映垃圾的降解规律。     

林可霉素生产废水的厌氧生物处理工艺

采用单相中温升流式厌氧污泥床(UASB)反应器厌氧生物工艺处理含有有毒难降解有机物的林可霉素生产废水.当进水COD 8000～14000 mg/L,HRT约10h时,COD容积负荷可达20～35kg/(m³·d),COD去除率为50%～55%.适时调整并维持较高的表面水力负荷[0.2～0.4 m³/(m²·h)]、较高的进水有机基质浓度(COD为2000～3000mg/L)和污泥COD负荷[0.2～0.5 kg/(kg·d)],并适当延长启动驯化时间可培养出沉降性好、污泥活性较高的颗粒污泥.废水厌氧生物降解动力学符合Monod方程,动力学常数V_max=1.3 d^-1,K_s=8133mg/L.废水中不可生物降解物质占总COD的比例约为30%,这是废水COD去除率偏低的重要因素.     

论环境监测综合信息系统的建设规划

根据对各级环保机械综合信息技术应用的调研,提出环境监测综合信息系统设计原则及技术路线。     

毛毯印染废水处理技术研究

本文采用投菌水解(酸化)--接触氯化法处理毛毯印染废水.试验表明该工艺流程简单,处理效果好,出水水质稳定.当进水CODc在480～750mg/L范围变化时,出水CODDc稳定在100mg/L以下.其中,水解池对色度有较好的去除效果,同时可提高后续接触氧化池的处理效率;而CODc的去除则主要在接触氧化池进行.