微波催化氧化法处理垃圾渗滤液的正交试验

在微波辐射条件下,采用活性炭与Fenton试剂处理垃圾渗滤液,并通过正交试验考察了微波辐射时间、pH、活性炭用量、硫酸亚铁用量和H2O2用量对处理效果的影响.结果表明:pH对处理效果的影响最大,其次为活性炭用量、微波辐射时间、硫酸亚铁用量和H2O2用量;在100 mL水样中,最佳处理条件为活性炭2 g、H2O20.2 mL、硫酸亚铁0.834 g、pH 6、微波辐射时间10 min,垃圾渗滤液中的COD去除率达到75.36%.     

臭氧-固定化生物活性炭滤池深度处理石化废水的试验研究

针对石化废水中不同特征污染物,采用人工分离筛选去除COD和油工程菌6株、硝化工程菌10株(亚硝化细菌5株、硝化细菌5株)构建高效混合菌群,通过臭氧固定化生物活性炭滤池除污染效能中试研究表明,该系统深度处理石化难降解有机废水是可行的,能同时实现去除COD、油类、NH3 N等污染物的功效,对COD、油类、NH3 N和色度的平均去除率分别为73 0%、90 5%、81 2%和90%,相应的出水分别为33 2mg/L、0 4mg/L、4 5mg/L和10倍,各项指标均达到了国家循环冷却水的用水要求,它的推广应用必将带来显著的环境效益、社会效益和经济效益。     

新生态二氧化锰对水中三价砷去除作用的研究

研究了新生态MnO2对水中As(Ⅲ)的去除效果。结果表明:新生态MnO2对As(Ⅲ)去除率高,作用速度快,作用过程符合二级动力学方程;pH=6.5时吸附等温线符合Langmuir和Frundlich方程;pH<7时,As(Ⅲ)的去除率均达80%以上,受pH和初始浓度影响较小,且与H3AsO3的pKa无关的非特性吸附;阴离子与As(Ⅲ)有吸附竞争作用,阳离子的加入可使As(Ⅲ)的去除率接近100%。     

选择性催化还原废气脱硝技术

选择性催化还原（SCR）法是目前普遍采用的废气催化脱硝方法。详细介绍了SCR废气脱硝的原理、工艺流程、运行控制的主要影响因素如催化剂的活性、反应温度、氨气加入量等及工业应用实例。     

微囊藻毒素在超声场中的降解研究

研究了功率超声对有毒蓝藻的主要次级代谢物藻毒素的降解作用,以及超声参数等条件对降解效果的影响.结果表明微囊藻毒素在超声场中具有很好的降解效果,实验条件下,频率为150 kHz的超声对藻毒素的降解效果最好,其功率为40 W时,作用20 min后藻毒素的降解率可达到70%以上.同时紫外光辐照可以有效地强化超声对藻毒素的降解.     

构建循环经济体系的系统经济学分析

本文首先从经济系统与循环经济体系之间的关系出发,论述了大力建设循环经济体系的关键点;接着描述传统经济系统中存在的主要问题,分析现有循环经济研究框架的不足;最后从系统经济学角度提出了一些完善中国循环经济体系建设的对策。     

Denitrification and phosphorus uptake by DPAOs using nitrite as an electron acceptor by step-feed strategies

Denitrifying phosphorus accumulating organisms (DPAOs) using nitrite as an electron acceptor can reduce more energy. However, nitrite has been reported to have an inhibition on denitrifying phosphorus removal. In this study, the step-feed strategy was proposed to achieve low nitrite concentration, which can avoid or relieve nitrite inhibition. The results showed that denitrification rate, phosphorus uptake rate and the ratio of the phosphorus uptaken to nitrite denitrified (anoxic P/N ratio) increased when the nitrite concentration was 15 mg·L^-1 after step-feeding nitrite. The maximum denitrification rate and phosphorus uptake rate was 12.73 mg NO2-–N·g MLSS-1?h-1 and 18.75 mg PO43-–P·g MLSS-1?h-1, respectively. These rates were higher than that using nitrate (15 mg·L^-1) as an electron acceptor. The maximum anoxic P/N ratio was 1.55 mg PO43--P?mg NO2--N-1. When the nitrite concentration increased from 15 to 20 mg NO2--N?L-1 after addition of nitrite, the anoxic phosphorus uptake was inhibited by 64.85%, and the denitrification by DPAOs was inhibited by 61.25%. Denitrification rate by DPAOs decreased gradually when nitrite (about 20 mg·L^-1) was added in the step-feed SBR. These results indicated that the step-feed strategy can be used to achieve denitrifying phosphorus removal using nitrite as an electron acceptor, and nitrite concentration should be maintained at low level (<15 mg·L^-1 in this study).     

盐酸溶液改性蛭石对气态单质汞的吸附性能

采用盐酸溶液对蛭石进行浸渍处理,考察了盐酸溶液改性蛭石对气态单质汞的吸附能力。研究结果表明：盐酸溶液改性蛭石对气态单质汞的吸附效果好于未改性蛭石,盐酸浓度为4．0mol／L时,盐酸溶液改性蛭石对气态单质汞的吸附效果较佳;进气中气态单质汞的质量浓度越高,盐酸溶液改性蛭石对气态单质汞的去除率越低;适当提高吸附温度对盐酸溶液改性蛭石吸附气态单质汞较有利;降低蛭石粒径,盐酸溶液改性蛭石对气态单质汞的去除率提高。     

秦皇岛港建设绿色企业文化探析

建设绿色企业文化是秦皇岛港实现绿色发展的前提,对港口的发展有深远的意义和重要作用.秦皇岛港应从强化领导意识、提高职工素质、完善绿色制度体系、构建绿色企业形象等方面入手建设港口绿色企业文化.     

Solid waste characterization and recycling potential for a university campus

Integrated waste management systems are one of the greatest challenges for sustainable development. For these systems to be successful, the first step is to carry out waste characterization studies. In this paper are reported the results of a waste characterization study performed in the Campus Mexicali I of the Autonomous University of Baja California (UABC). The aim of this study was to set the basis for implementation of a recovery, reduction and recycling waste management program at the campus. It was found that the campus Mexicali I produces 1ton of solid wastes per day; more than 65% of these wastes are recyclable or potentially recyclable. These results showed that a program for segregation and recycling is feasible on a University Campus. The study also showed that the local market for recyclable waste, under present conditions - number of recycling companies and amounts of recyclables accepted - can absorb all of these wastes. Some alternatives for the potentially recyclables wastes are discussed. Finally some strategies that could be used to reduce waste at the source are discussed as well.