水解酸化——生物接触氧化处理印染废水的动力学研究

水解酸化——接触氧化工艺在处理印染废水方面有得天独厚的条件,但其反应器内的动力学研究较少。在调查某印染厂废水生化处理系统的基础上,在实验室内建立了该印染厂废水生化处理工艺的模拟系统。选取合理的动力学模型后,通过改变整个生化系统的水力停留时间和容积负荷,研究了水解酸化反应器的微生物浓度、进出水基质浓度、微生物比增长速率之间的关系;研究了生物接触氧化反应器内单位面积填料基质去除速率、饱和基质浓度时单位面积填料最大基质去除速率、接触氧化反应器内进出口的基质浓度、不可生物降解物质的浓度、饱和常数之间的关系。结合实验数据,确定并计算了动力学模型的参数,最终得到了厌氧水解反应器和生物接触氧化反应器内的动力学方程。     

生物流化床法处理废水的研究与应用进展

介绍了国内外应用生物流化床法处理废水的研究及技术进展，着重阐述了好氧流化床与厌氧流化床的发展,概况，并介绍了几种新型生物流化反应器，指出了今后进一步研究与应用生物流化床的前景与努力方向。     

荷兰DSM化工厂生物除氮技术简介

本文主要介绍了荷兰DSM化工厂生物除氮技术     

Critical Loads – Is There A Need For A New Concept?

The concept of critical loads has been an important andsuccessful tool for the development of control strategiesfor transboundary air pollution in Europe. The use of theconcept has led us to a situation where very few areas inEurope will have an exceedance of critical loads foracidification in 2010, indicating that the benefits offurther control acidifying substances will be lessuseful. The critical loads concept does not, however,take into account the large benefits of further controlin damaged systems but where critical loads are nolonger exceeded. In this paper we discuss the importanceof widening the critical loads concept to include thesebenefits and we propose an additional effect-relatedmeasure, Dynamic Impact Analysis, to be included infurther control strategies and assessments. With such aconcept the actual situation and its further developmentwill be included in assessments and control strategies.     

水解(酸化)-好氧工艺处理混合工业废水试验研究

水解（酸化）＋好氧工艺可以有效地用于城市污水与工业废水处理，试验研究了不同工况条件下，水解（酸化）＋好氧工艺处理混合工业废水的效果，通过投加悬浮填料对水工艺过程进行优化，使其处理系统更为有效。在总的水力停留时间分别为11.5h、14.5h、19.0h,CODCr总的平均除率分别为72.1%、76.7%、77.6%,BOD5的去除率为89.6%、90.7%、91.5%，废水经水解（酸化）处理后，BOD5／CODCr有上升趋势，水解时间3.5h、4.5h、6h对应的BOD5／CODCr比值分别提高了3％、11％、17％，表明水解（酸化）提高了混合工业废水的可生化性。针对上海市某工业区混合废水建议水解（酸化）时间控制在6h以上、好氧反应控制在10.0h。     

生物法处理涂装废水工程设计

采用生物法处理涂装废水，具有投资省，处理效果好，运行费用低，系统稳定等特点，是涂装工业废水处理的一种可靠选择。     

Ecotoxicological aspects of the tolerance of hydrobionts to acidification of the aquatic environment in the Taiga natural climatic zone

Experimental ecotoxicological studies on the norm of reaction to anthropogenic acidification were performed with representative hydrobionts from aquatic ecosystems of the northern taiga zone. Interspecific, interpopulation, and age-related differences in tolerance to acidity and the significant dependence of this parameter on water pH in natural habitats of corresponding populations were revealed.     

Measuring conservation success beyond the traditional biological criteria: the case of conservation projects in Costa Rica,Mekong Valley,and Cameroon

Traditionally, the criteria used to measure conservation success or failure are based on biological factors. Biological factors include changes in the amount of targeted conserved species, biodiversity, and total area conserved. However, conservation efforts are not simply a matter of biological concern; environmental, political, social, and conflict pressures on different scales (ranging from local to global) also have strong influences on the outcome of conservation. These other factors can either pose threats to or enhance conservation, but are not addressed by current criteria. Using a proposed holistic rubric that includes interdisciplinary fields, this paper examines a set of conservation factors on different scales – ranging from local to global – to determine their importance in conservation. The paper analyses positive factor influences with more successful conservation and negative factor influences with less successful, or failed, conservation attempts. Neutral and non‐applicable factor influences are also identified, defined, and ranked as a standardization mechanism. The determination of success changed when the holistic rubric was applied to conservation projects in Costa Rica, Mekong Valley, and Cameroon. In the Costa Rica case study, conservation success for Guanacaste and Talamanca national parks is rated ‘moderately low’. In the case of Mekong Valley, conservation success is rated ‘low’ for Lower Mekong, ‘moderately low’ for Greater Annamites, and ‘low’ for Phong Nha‐Ke Bang national parks. Cameroon's Congo Basin and Sangha Tri‐National conservation efforts are both rated ‘low’, while Dja Faunal is rated ‘very low’. We conclude that if conservation efforts are to attain a high level of success, the strategy for global conservation must move away from the traditional biological approach, which focuses mainly on biological concerns, and embrace a holistic approach, which in addition to biological concerns, addresses environmental, political, social, and conflict pressures, which have strong influences on the outcomes of conservation.     

Rotating biological contactors for wastewater treatment – A review

Rotating biological contactors (RBCs) for wastewater treatment began in the 1970s. Removal of organic matter has been targeted within organic loading rates of up to 120 g m⁻² d⁻¹ with an optimum at around 15 g m⁻² d⁻¹ for combined BOD and ammonia removal. Full nitrification is achievable under appropriate process conditions with oxidation rates of up to 6 g m⁻² d⁻¹ reported for municipal wastewater. The RBC process has been adapted for denitrification with reported removal rates of up to 14 g m⁻² d⁻¹ with nitrogen rich wastewaters. Different media types can be used to improve organic/nitrogen loading rates through selecting for different bacterial groups. The RBC has been applied with only limited success for enhanced biological phosphorus removal and attained up to 70% total phosphorus removal. Compared to other biofilm processes, RBCs had 35% lower energy costs than trickling filters but higher demand than wetland systems. However, the land footprint for the same treatment is lower than these alternatives. The RBC process has been used for removal of priority pollutants such as pharmaceuticals and personal care products. The RBC system has been shown to eliminate 99% of faecal coliforms and the majority of other wastewater pathogens. Novel RBC reactors include systems for energy generation such as algae, methane production and microbial fuel cells for direct current generation. Issues such as scale up remain challenging for the future application of RBC technology and topics such as phosphorus removal and denitrification still require further research. High volumetric removal rate, solids retention, low footprint, hydraulic residence times are characteristics of RBCs. The RBC is therefore an ideal candidate for hybrid processes for upgrading works maximising efficiency of existing infrastructure and minimising energy consumption for nutrient removal. This review will provide a link between disciplines and discuss recent developments in RBC research and comparison of recent process designs are provided (Section 2). The microbial features of the RBC biofilm are highlighted (Section 3) and topics such as biological nitrogen removal and priority pollutant remediation are discussed (Sections 4 Biological nutrient removal in RBCs, 5 Priority pollutant remediation in RBCs). Developments in kinetics and modelling are highlighted (Section 6) and future research themes are mentioned.     

Progress in study of Salix characteristics and its application in sediment phytoremediation北大核心CSCD

For its difficulty in remediation and possibility of vicious spiral formation, contaminated sediment becomes a hot spot of recent pollution control study. Among all methods, phytoremediation is widely used in treatment of polluted sediment because of its high efficiency and sustainability. The fast-growing willow, a perennial woody plant with long vegetative season and great adaptation in harsh environments, has been suggested to be a low-cost and ecologically sound solution for the phytoremediation of contaminated sediment. This article introduces the characteristics of Salix and the ecological significance of Salix adaption to harsh environment, and reviews research progress and mechanisms including phytoextraction, phytotransformation, phytostabilization, phytodegradation and phytovolatilization of Salix. It also analyzes the effect of Salix in accumulating heavy metal, degrading organic matter and changing the characteristic of sediment, to point out the potential application of Salix in phytoremediation of polluted sediment. The article also puts forward the existing problems and possible solutions in phytoremediation by Salix of sediment, including paying more attention to field experiment, extending of the test cycle, emphasizing on optimal allocation of remediation plant communities.