2450MHz电磁波污泥脱水过程中的温度效应

采用2450MHz电磁波进行污泥脱水,研究电磁波加载过程中污泥温度变化对于剩余污泥性质和溶出效应的影响.研究发现,经电磁波加载后,污泥的容积指数（SVI）随着温度的升高而降低,在温度为80℃时由原泥的130.73mL/g降至最低值95.25mL/g,污泥沉降性能得到改善;经电磁波加载后,污泥离心含水率也随着温度的升高持续降低,最低降到80℃时的93.52%;污泥的毛细吸水时间（CST）在60℃时由原泥的29.4s降至最低值23.2s,污泥比阻（SRF）始终高于初始值,说明电磁波的加载一定程度上可以改善剩余污泥的离心脱水和板框压滤脱水效果,但不利于剩余污泥的真空抽滤.在电磁波加载过程中,检测污泥胞外聚合物（EPS）及上清液中可溶性化学需氧量（SCOD）的含量,发现污泥温度升高有利于污泥胞内物质的溶出.在80℃时,污泥上清液中SCOD含量由初始的124.1mg/L增大到883.4mg/L;同时也发现,温度高于60℃后,污泥中微生物细胞破壁更明显,污泥EPS含量随之发生变化,对污泥脱水性能的影响更加显著.     

串联垂直流人工湿地去除河水中磷的效果

利用在温室内构建的串联垂直流人工湿地模拟装置,以芦苇为湿地植物,填充砾石,研究两种水力负荷(0.2和0.4 m/d)、3个串联级数、有/无植物等对处理北京市清河河水磷去除的影响,试验共持续144 d. 结果表明:①在进水ρ(TP)为0.50~1.77 mg/L(平均值为1.15 mg/L)、ρ(DTP)为0.41~1.53 mg/L(平均值为0.9 mg/L)的条件下,TP去除率随进水ρ(TP)的升高而升高. ②水力负荷为0.2 m/d时,有、无植物3级串联系统磷的去除率分别为38.36%、26.85%;水力负荷为0.4 m/d时,分别为32.42%,23.99%,说明低水力负荷与有植物的条件利于除磷. ③有植物3级串联系统TP去除率平均值为38.36%,大于2级串联系统(28.30%);无植物3级串联系TP去除率平均值为26.85%,大于2级串联系统(21.81%)和1级串联系统(14.98%),串联级数增加,磷去除率升高. 研究显示,水力负荷为0.2 m/d时,有植物3级串联系统的TP去除率最高.      

新型多级跌水曝气生物滤池的运行效能研究

本文研究了在"跌水曝气式生物滤塔"专利(专利号201020207090.9)基础上增设电气石纤维滤料层的多级跌水曝气生物滤池的运行效能,从水力负荷和容积负荷两方面证明改造后的多级曝气生物滤池处理低浓度生活有机污水的有效性和负离子材料对滤料层净化效率的改进效果,为类似多级跌水曝气生物滤池的工艺设计提供了参考依据。     

AnSBBR applied to the treatment of wastewater from a personal care industry: Effect of organic load and fill time

The objective of this work was to study the technological feasibility of treating wastewater from a personal care industry (PCI-WW) in a mechanically stirred anaerobic sequencing batch biofilm reactor (AnSBBR) containing immobilized biomass on polyurethane foam. An assessment was made on how system efficiency and stability would be affected by: increasing organic load; supplementation of nutrients and alkalinity; and different feed strategies. The AnSBBR operated with 8-h cycles, stirring speed of 400 rpm, temperature of 30 °C, and treated with 2.0 L wastewater per cycle. First the efficiency and stability of the AnSBBR were studied when submitted to an organic loading rate (OLR) of 3.1–9.4 gCOD/(L d), and when the PCI-WW was supplemented with nutrients (sucrose, urea, trace metals) and alkalinity. The AnSBBR was shown to be robust and presented stability and removal efficiency exceeding 90%. At an OLR of 12.0 gCOD/(L d) efficiency became difficult to maintain due to the presence of commercial cleansers and disinfectants in the wastewater lots. In a subsequent stage the AnSBBR treated the wastewater supplemented with alkalinity, but with no nutrients at varying feed strategies and maintaining an OLR of approximately 9.0 gCOD/(L d). The first strategy consists of feeding 2.0 L of the influent batchwise [OLR of 9.4 gCOD/(L d)]. In the second 1.0 L of influent was fed-batchwise and an additional 1.0 L was fed fed-batchwise [OLR of 9.2 gCOD/(L d)], i.e., in relation to the first strategy the feed volume was maintained but supplied in different periods. In the third strategy 1.0 L of treated effluent was maintained in the reactor and 1.0 L of influent was fed fed-batchwise [OLR of 9.0 gCOD/(L d)], i.e., in relation to the first strategy the feed volume was different but the feed period was the same and the OLR was maintained by increasing the influent concentration. Comparison of the first and second strategies revealed that organic matter removal efficiency was unaffected (exceeding 90%). The third strategy resulted in a reduction in average removal efficiency from 91 to 83% when compared to the first one. A kinetic study resulted in first order kinetic parameters ranges from 0.42 to 1.46 h⁻¹ at OLRs from 3.1 to 12.0 gCOD/(L d), respectively, and the second feed strategy [OLR of 9.2 gCOD/(L d)] was shown to be the most favorable.     

AVGWLF‐Based Estimation of Nonpoint Source Nitrogen Loads Generated Within Long Island Sound Subwatersheds1

Abstract: The Generalized Watershed Loading Functions (GWLF) model and its ArcView interface (AVGWLF) were used to estimate and examine the components of the total nitrogen (TN) nonpoint source (NPS) load generated within New York and Connecticut (CT) watersheds surrounding Long Island Sound (LIS, the Sound). The majority of data used as model inputs were generally available from online sources, and the work involved an overall calibration to streamflow and TN data in accordance with generic guidelines recommended in the GWLF manual. The GWLF model performance for three calibration and two validation watersheds in CT was compared with results of a detailed model, Hydrological Simulation Program in Fortran, developed in a previous study. The results of the application illustrate the usefulness of the relatively simpler, less parameter‐intensive GWLF model in performing exploratory loading analysis in preparation for adaptive nutrient management in the LIS watersheds. The presented methodology is valuable for identification of priority watersheds for NPS pollution reduction and also for planning‐level evaluation of best management practices to achieve the desired reductions. It is estimated that ground‐water base flow may be the largest pathway for NPS TN to the Sound, contributing about 54% of the total NPS TN load, a finding with significant implications for LIS total maximum daily load reduction scenarios. In addition to ground water, septic systems are estimated to contribute about 17% of the total load, with the remaining TN load being mostly runoff from urban (17%), agricultural (5%), and low impact (e.g., forest) areas (6%).     

人工快速渗滤系统的运行方式对复氧效果的影响

本文通过在CRI系统现场系统中湿干比,水力负荷周期和增加通气管对复氧效果的研究,发现在湿干比1∶6时,CRI系统对与复氧有关的指标CODCr、NH3-N的去除率较高,系统复氧效果较好;通过缩短系统水力负荷周期,加大系统淹水、落干频率,可以加大系统的复氧量,提高系统的复氧效率,CODCr和NH3-N的去除效果均有所提高;增加通气管对CRI系统复氧效果不明显。     

Fe2+/活性炭非均相Fenton试剂氧化法降解苯酚

采用Fe2+/活性炭非均相Fenton试剂催化处理高浓度模拟苯酚废水.以体积分数为40％的硫酸对颗粒活性炭进行预处理后加入质量分数为10％的硫酸亚铁溶液,制备Fe2+/活性炭.在非均相Fenton试剂氧化体系中,Fe2+/活性炭初次使用时,苯酚去除率为92％；连续重复使用5次,苯酚去除率仍可达53％.     

Organochlorine pesticides and polychlorinated biphenyls in riverine runoff of the Pearl River Delta, China: assessment of mass loading, input source and environmental fate

A large-scale sampling program was conducted to simultaneously collect water samples at the eight major riverine runoff outlets of the Pearl River Delta (PRD), South China to assess the importance of riverine runoff in transporting anthropogenic pollutants from terrestrial sources to the coastal ocean. The concentrations of ∑₂₁OCPs (sum of 21 OCP components) and ∑₂₀PCBs (sum of 20 PCB congeners) were 2.57-41.2 and 0.12-1.47 ng/L, respectively. Compositional distributions of DDTs suggested the possibility of new input sources in the study area, but contributions from dicofol seemed considerably low. The annual inputs of ∑₂₁OCPs and ∑₂₀PCBs were 3090 and 215 kg, with those of total HCHs and DDTs being 1110 and 1020 kg, respectively. A mass balance consideration indicated that riverine runoff is the major mode carrying OCPs from the PRD to the coastal ocean, and the majority of OCPs is further dissipated to open seas.     

高温载硫活性炭的制备及脱汞能力研究

研究了载硫温度、硫炭比(简称S/C),吸附温度等因素对载硫活性炭的硫含量、脱汞能力以及硫损失的影响,探讨载硫活性炭制备的工艺条件优化。结果表明,不同载硫温度下制备的载硫活性炭的气态Hg0吸附能力远强于原料活性炭;载硫温度不同时,负载到活性炭孔隙或表面上的硫的形态不同,导致了脱汞能力的差异,较合适的载硫温度为350℃;S/C为5%(质量分数,下同)时,随着吸附温度的升高,载硫活性炭的气态Hg0吸附量降低;在一定的载硫温度下,原料中S/C越高时,制备的载硫活性炭的硫含量越高、气态Hg0吸附能力越强,但其硫损失率也越高,从实际的使用效果来看,较合适的S/C为10%。