安康湿地综合生态产业园规划

针对当前城市中各类湿地在经济建设浪潮中,受城市扩张的影响而逐步退缩、湿地内部生境破碎化愈益严重的局面,以安康市湿地公园为例,引入多种生态技术、结合造园手法,探寻一种兼顾湿地生态效益与城市社会经济效益的多元化利用模式。     

油田单井清洁生产探讨

江苏油田某基层采油队边远单井为例,对单井实施清洁生产现状和问题进行分析,从单井采油生产地面工程配套工艺技术、清洁生产配套工艺等方面,探索单井实施清洁生产的有效措施和办法.     

Fenton氧化+气浮+厌氧+好氧工艺处理仲丁灵农药生产废水

采用Fenton氧化+气浮对仲丁灵农药生产废水进行预处理后,ρ(COD)<6 000 mg/L,色度<1 500倍,废水的可生化性大大提高。经过预处理后的生产废水与厂区生活污水混合后进入水解酸化+曝气生物滤池进行生化处理,处理后出水各项水质指标可达GB8978-1996《国家污水综合排放标准》一级标准。     

A simulation model to explore the response of the Gulf of Maine food web to large-scale environmental and ecological changes

A dynamic simulation model was constructed using outputs from a balanced Gulf of Maine (GOM) energy budget model as the initial parameter set. The model was structured to provide a recipient control set of dynamics, largely based off of flows to and from different biological groups. The model was used to produce Monte Carlo simulations that were compared (percent change in biomass) with basecase simulations for a variety of scenarios. Changes in primary production, large increases in pelagic and demersal fish biomass, increases in fishing mortality, and large increases in top predators such as baleen whales and pinnepids were simulated. These scenarios roughly simulated the potential impacts of climate change, altered fishing pressure, additional protected species mitigations, and combinations thereof. Results suggest that the GOM system is primarily influenced by bottom-up processes involving phytoplankton, zooplankton, and bacterial biomass. Pelagic and demersal fish were important in determining trends in some of the scenarios. Marine mammals, large pelagic fish, and seabirds have a minor role in the GOM system in terms of biomass flows among the ecosystem components. The system is resilient to large-scale change due, in part to many predator–prey linkages. However, major alterations could occur from sustained climate change, high fishing rates, and by combinations of these types of external forcing mechanisms.     

毛皮加工清洁生产的白皮鞣制技术

研究了改性有机磷化合物在毛皮鞣制过程中的应用技术(白皮鞣制技术),替代了传统的甲醛或铬类鞣剂进行的毛皮加工生产,减少了毛皮产品及生产废液中有害物质的含量,达到了欧盟规定的技术要求,实现了环保型加工。     

固定化微生物絮凝菌在废水脱色中的应用

从筛选到的微生物絮凝菌中构建出比单一菌群产生更高絮凝活性絮凝剂的复合菌群,并对其进行固定化,将固定化后的细胞应用于染料废水的处理。研究发现,利用海藻酸钙包埋絮凝菌能较长时间保持细胞高的活性,且固定化菌群对染料废水具有较好的脱色效果,并在一定程度上可以达到连续生产絮凝剂的目的。     

Effects of nitrate concentration on biological hydrogen production by mixed cultures

The effects of nitrate on fermentative hydrogen production and soluble metabolites from mixed cultures were investigated by varying nitrate concentrations from 0 to 10 g N/L at 35°C with an initial pH of 7.0. The results showed that the substrate degradation rate, hydrogen production potential, hydrogen yield, and average hydrogen production rate initially increased with increasing nitrate concentrations from 0 to 0.1 g N/L, while they decreased with increasing nitrate concentrations from 0.1 to 10 g N/L. The maximum hydrogen production potential of 305.0 mL, maximum hydrogen yield of 313.1 mL/g glucose, and maximum average hydrogen production rate of 13.3 mL/h were obtained at a nitrate concentration of 0.1 g N/L. The soluble metabolites produced by the mixed cultures contained only ethanol and acetic acid (HAc) without propionic acid (HPr) and butyric acid (HBu). This study used the Modified Logistic model to describe the progress of cumulative hydrogen production in batch tests. A concise model was proposed to describe the effects of nitrate concentration on average hydrogen production rate.     

中国电池生产用汞量及潜在汞散失量估算

从含汞电池的生产与消费、单位电池含汞量的估算、电池生产用汞量及潜在汞散失量的估算3个方面,对1992～1999年我国电池生产用汞量和潜在汞散失量进行了分析。结果表明,1992～1999年期间我国电池生产用汞量先减后增再减,其中2个高峰分别为1992年的679.5t和1997年的974.3t;潜在汞散失量呈上升趋势,1999年达801.7t。因此,我国电池引起的汞污染问题不容忽视。     

基于HPR在线监测控制SBR曝气历时实现短程脱氮

应用新型自动呼吸-滴定测量仪在线测量pH值、HPR等信号,进行了在SBR内实现短程脱氮的研究.采用SBR处理人工合成废水,COD和NH4+-N浓度分别为360,40mg/L,温度稳定在20℃,DO低于2mg/L,基于HPR在线监测控制SBR曝气历时.运行约60d后,亚硝酸盐积累率达到88%,COD和NH4+-N去除率均在90%以上,稳定实现了短程硝化反硝化.应用HPR估计硝化过程的NH4+-N浓度发现,NH4+-N实测值与基于HPR的计算值间存在良好的线性关系,相关系数为0.9722;计算值整体低于实测值,主要是由曝气初期的滴定启动滞后所致.     

Membrane-based treatment of shale oil and gas wastewater: The current state of knowledge

• Shale oil and gas production generates wastewater with complex composition. • Membrane technologies emerged for the treatment of shale oil and gas wastewater. • Membrane technologies should tolerate high TDS and consume low primary energy. • Pretreatment is a key component of integrated wastewater treatment systems. • Full-scale implementation of membrane technologies is highly desirable. Shale oil and gas exploitation not only consumes substantial amounts of freshwater but also generates large quantities of hazardous wastewater. Tremendous research efforts have been invested in developing membrane-based technologies for the treatment of shale oil and gas wastewater. Despite their success at the laboratory scale, membrane processes have not been implemented at full scale in the oil and gas fields. In this article, we analyze the growing demands of wastewater treatment in shale oil and gas production, and then critically review the current stage of membrane technologies applied to the treatment of shale oil and gas wastewater. We focus on the unique niche of those technologies due to their advantages and limitations, and use mechanical vapor compression as the benchmark for comparison. We also highlight the importance of pretreatment as a key component of integrated treatment trains, in order to improve the performance of downstream membrane processes and water product quality. We emphasize the lack of sufficient efforts to scale up existing membrane technologies, and suggest that a stronger collaboration between academia and industry is of paramount importance to translate membrane technologies developed in the laboratory to the practical applications by the shale oil and gas industry.