H_2O_2、Fenton试剂与活性炭联用对COD_(Cr)去除效果的对比试验研究

为了开发高效低成本、达到回用水质标准的污水处理工艺,本试验采用H2O2、Fenton试剂与活性炭联用对CODCr进行去除的对比试验研究。结果表明:在室温下200 mL水样,当pH为3,震荡强度为150 rpm时,Fenton试剂-活性炭联用与H2O2-活性炭相比,活性炭用量少200 mg,时间缩短10 h,CODCr去除率高17.6%。试验揭示了Fenton试剂-活性炭联用的反应机理:Fe2+与活性炭共同催化分解H2O2生成大量.OH,能快速氧化降解有机物,使CODCr浓度迅速降低。从工程应用角度和技术经济方面考虑,Fenton试剂-活性炭联用的pH值在5～7适宜;且处理成本更低。Fenton试剂-活性炭联用是处理二级出水CODCr高效、低耗的方法,值得进一步研究和推广应用。     

电生成Fenton试剂降解活性墨绿B的研究

用活性炭纤维复合铁丝制成电极,在阴阳两极的协同作用下,电生成Fenton试剂处理活性墨绿B模拟废水.研究不同温度时电解过程中活性墨绿B浓度的变化情况,做一级反应线性拟合,初步探索反应机理.证明电催化降解活性墨绿B的过程符合一级反应;反应速率常数随着温度的升高而增大,线性拟合后可以得到阿仑尼乌斯公式,计算出反应活化能为Ea=22.3 kJ·mol-1.比较废水处理的不同方法,发现阴阳两极协同作用的电Fenton法效果最好,色度去除率可以达到90%以上;紫外可见光谱研究发现,活性墨绿B的生色基团受到破坏,有小分子生成;可以确定处理废水是电解-吸附-气浮-絮凝的协同作用.     

酸性桃红3B染料废水治理方法的探讨

桃红染料废水水质成分复杂、ＣＯＤ_ｃｒ及色度高、酸性极强,治理难度大。经工艺试验、比较,找出了可行的治理工艺方案,采用“以废治废”的方法,用废碱液（或印染废水）提高ｐＨ值,再经混凝、沉淀、出水回流等工艺,使废水治理获得较满意的效果,据此提供了有关工艺试验的数据、治理工艺技术条件及治理工艺流程。     

脱硫废水旋转喷雾蒸发与旁路烟道蒸发特性研究

针对旋转喷雾和旁路烟道两类高温旁路烟气蒸发技术工艺,开展脱硫废水蒸发特性对比实验,结合可视化荧光示踪法及单液滴蒸发试验研究了废水雾滴在高温烟气中的蒸发过程,分析了烟气温度及烟气停留时间对蒸发性能的影响,并比较了两类废水蒸发工艺的差异。结果表明：脱硫废水液滴接触热烟气后将迅速失去表面自由水分,表面成壳固化为半干颗粒;旋转喷雾蒸发塔内主蒸发区域温度迅速降低,提高烟气温度有助于提升蒸发效率,降低出口灰分含水率;通过适当增大干燥塔尺寸,延长高温烟气在干燥塔内停留时间,可提升热量利用率,实现低气液比条件下的蒸发干燥;两类旁路蒸发工艺相比,旋转喷雾蒸发因雾化效果较好、气液混合均匀,蒸发性能略优于旁路烟道工艺。     

Fluidized-Bed Bioreactor Applications for Biological Wastewater Treatment: A Review of Research and Developments

Wastewater treatment is a process that is vital to protecting both the environment and human health. At present, the most cost-effective way of treating wastewater is with biological treatment processes such as the activated sludge process, despite their long operating times. However, population increases have created a demand for more efficient means of wastewater treatment. Fluidization has been demonstrated to increase the efficiency of many processes in chemical and biochemical engineering, but it has not been widely used in large-scale wastewater treatment. At the University of Western Ontario, the circulating fluidized-bed bioreactor (CFBBR) was developed for treating wastewater. In this process, carrier particles develop a biofilm composed of bacteria and other microbes. The excellent mixing and mass transfer characteristics inherent to fluidization make this process very effective at treating both municipal and industrial wastewater. Studies of lab- and pilot-scale systems showed that the CFBBR can remove over 90% of the influent organic matter and 80% of the nitrogen, and produces less than one-third as much biological sludge as the activated sludge process. Due to its high efficiency, the CFBBR can also be used to treat wastewaters with high organic solid concentrations, which are more difficult to treat with conventional methods because they require longer residence times; the CFBBR can also be used to reduce the system size and footprint. In addition, it is much better at handling and recovering from dynamic loadings (i.e., varying influent volume and concentrations) than current systems. Overall, the CFBBR has been shown to be a very effective means of treating wastewater, and to be capable of treating larger volumes of wastewater using a smaller reactor volume and a shorter residence time. In addition, its compact design holds potential for more geographically localized and isolated wastewater treatment systems.     

活性炭纤维吸附性能的研究新进展

介绍了活性炭纤维的吸附机理,着重论述了吸附技术在含重金属废水、染料废水及农药废水处理中的应用研究进展,并指出目前存在的不足之处以及对未来的研究工作提出了一些展望和建议,以期为环境的治理做出贡献。     

Breakthrough Technologies for the Biorefining of Organic Solid and Liquid Wastes

Organic solid and liquid wastes contain large amounts of energy, nutrients, and water, and should not be perceived as merely waste. Recycling, composting, and combustion of non-recyclables have been practiced for decades to capture the energy and values from municipal solid wastes. Treatment and disposal have been the primary management strategy for wastewater. As new technologies are emerging, alternative options for the utilization of both solid wastes and wastewater have become available. Considering the complexity of the chemical, physical, and biological properties of these wastes, multiple technologies may be required to maximize the energy and value recovery from the wastes. For this purpose, biorefining tends to be an appropriate approach to completely utilize the energy and value available in wastes. Research has demonstrated that non-recyclable waste materials and bio-solids can be converted into usable heat, electricity, fuel, and chemicals through a variety of processes, and the liquid waste streams have the potential to support crop and algae growth and provide other energy recovery and food production options. In this paper, we propose new biorefining schemes aimed at organic solid and liquid wastes from municipal sources, food and biological processing plants, and animal production facilities. Four new breakthrough technologies—namely, vacuum-assisted thermophilic anaerobic digestion, extended aquaponics, oily wastes to biodiesel via glycerolysis, and microwave-assisted thermochemical conversion—can be incorporated into the biorefining schemes, thereby enabling the complete utilization of those wastes for the production of chemicals, fertilizer, energy (biogas, syngas, biodiesel, and bio-oil), foods, and feeds, and resulting in clean water and a significant reduction in pollutant emissions.     

基于回声状态网络的BOD在线软测量模型

针对污水处理过程的BOD建模问题,提出了一种基于回声状态网络的BOD在线软测量方法;基于梯度下降规则对回声状态网络的在线学习算法进行了研究;为保证学习算法的收敛性,基于Lyapunov理论对学习率范围进行了确定;实验表明,基于回声状态网络的在线BOD预测方法较常规神经网络预测精度提高约两个数量级,模型的适应性也大幅提高。     

Relationship of structure and enhanced photocatalytic activity of S-scheme BiOCl/g-C3N4 heterojunction for xanthate removal under visible light

Constructing heterojunctions is an excellent way to enhance the photocatalytic property of semiconductors. Herein, a range of S-scheme BiOCl/g-C₃N₄ heterojunctions with varying mass ratios were designed using a facile hydrothermal route, and their photocatalytic ability was assessed by degrading the ethyl xanthate (EX) under visible light (λ > 400 nm). The results showed that the degradation efficiency of BiOCl/g-C₃N₄-0.1 heterojunction for EX was up to 91.2 % within 180 min, and its apparent rate constants (K_app) were 4.3 and 11 times greater than those of BiOCl and g-C₃N₄, respectively. The experimental and characterization results revealed that the excellent photocatalytic property was ascribed to the construction of S-scheme heterojunctions. Such structure not only enhanced the visible light response but also facilitated the efficient separation of photoinduced carriers with the S-scheme transfer route, retaining strong redox-capable holes and electrons to participate in surface reactions. Furthermore, the cycling experiments indicated that the fabricated photocatalysts have great recyclability and stability. Based on the results of active substance capture, the S-scheme charge transfer model was proposed and the photodegradation mechanism of EX was reasonably elucidated. Overall, this work offers some theoretical direction for the design and construction of S-scheme heterojunctions with superior visible-light-driven photocatalytic performance.     

国内外畜禽养殖业粪便管理及立法的比较

基于我国和几个欧州国家畜禽养殖业粪便管理及立法的比较,总结了国内外畜禽养殖业粪便管理及立法的特征,找出我们在这方面的差距和今后的努力方向,为我国进行畜禽养殖业粪便管理及法制建设提供借鉴和参考．