城市可持续发展的指数普适公式及评价模型

为了建立城市可持续发展的评价模型,分析了社会、经济和环境指标体系所具有的特征,提出了基于GA优化的分类单项指标的发展指数普适公式,并采用广义对比运算和层次分析法对不同层次指标赋权,建立了社会、经济和环境可协调持续发展评价模型.该模型应用于大理市的可协调持续发展评价结果表明:基于GA优化参数后的分类单项指标的发展指数公式和评价模型不仅简单、实用,而且具有可比性、易操作性和普适性.     

新型絮凝剂室内评价试验

通过对比国外的有机絮凝剂和无机絮凝剂复配使用情况,对钻井污水用新型絮凝剂一有机一无机复合絮凝剂ＷＢＹ进行了评价,结果证明该絮凝剂能经济、高效地处理钻井污水。     

有机酸对铬超富集植物李氏禾吸收Cu的影响

许多研究表明有机酸的施加对植物吸收重金属的量具有不同的影响.文章采用盆栽试验研究了EDTA、柠檬酸、草酸和酒石酸对土壤中Cu的活化和李氏禾(Leersia hexandra Swartz)吸收Cu的影响.结果表明,当向土壤中施加质量摩尔浓度为2 mmol·kg-1的EDTA时,土壤中Cu质量分数为220.16 mg·kg-1与空白土壤中500.31 mg·kg-1相比明显减少,说明EDTA可以极显著的降低土壤中的铜质量分数,使其转化成水提取态的Cu浮于土壤表面,并大部分聚集在根部周围,同时向土壤中施加EDTA不但促进了对Cu的活化而且显著提高了李氏禾对Cu的吸收,叶中最高质量分数达到336.54 mg·kg-1是对照中80.34 mg·kg-1的四倍;而柠檬酸、草酸和酒石酸则抑制了Cu的活化,但对李氏禾地上部分的Cu质量分数影响不大.有机酸对Cu的影响相对较弱,除EDTA显著降低了土壤中Cu质量分数外,其他有机酸对Cu的活化和李氏禾吸收Cu的影响与对照均没有明显差异.     

不同源类型农业非点源负荷特征研究——以新田小流域为例

以珠江三角洲北部新田小流域为研究对象,采用源类型法,在流域范围内建立林地、果园、旱地和水田四个全封闭的农业用地单元,并对四个单元出口处的径流量进行同步采样,分析COD、BOD、氨氮、总氮和总磷等污染物的负荷特征.结果表明:(1)流域地表水存在着明显非点源污染现象,不同源类型,地表径流的污染程度不同.(2)不同源类型农业非点源污染负荷强度不同,其中水田、旱地单位面积非点源负荷强度较大,果园、林地各项污染物的负荷强度相对最小.受地表扰动、施肥等人类活动影响,流域内水田、旱地是农业非点源污染发生的关键源区.(3)流域范围内,不同源类型农业非点源负荷总量不同,其中,果园各项污染物非点源负荷总量最大,其次是林地,水田、旱地非点源负荷输出总量较小,流域范围内,源面积成为影响非点源负荷总量的主要因素.(4)相应的非点源污染治理不仅是关键源区,同时应关注大面积流失区.     

燃煤手烧锅炉除尘器的研究与开发

介绍了一种集多种湿法除尘技术之长于一体的新型组合式除尘装置,该装置不仅能有效地消除手烧锅炉燃烧时产生的烟尘,而且实现了除尘水的内循环,消除了其他湿式除尘器所带来的水的二次污染问题。     

散射光下铁(Ⅲ)-丙酮酸盐配合物还原铬(Ⅵ)的研究

研究了在散射光下铁（Ⅲ）-丙酮酸盐配合物对铬（Ⅵ）的光还原反应;考察了溶液pH、铁（Ⅲ）、丙酮酸钠、铬（Ⅵ）浓度对反应的影响;分析了铬（Ⅵ）光还原反应的动力学。实验结果表明：铁（Ⅲ）-丙酮酸盐配合物体系能在较弱的散射光下还原铬（Ⅵ）。在铬（Ⅵ）浓度为19．2μmol／L、铁（Ⅲ）浓度为10．0μmol／L、丙酮酸钠浓度为240μmol／L、pH为3．0、光照240min的条件下,铬（Ⅵ）的还原率达到99．7％。从表观动力学方程的反应级数看,铁（Ⅲ）的级数（0．83）最高,铁（Ⅲ）浓度是影响铬（Ⅵ）光还原反廊速率的主要因素．铁（Ⅱ）是铬（Ⅵ）光还原的主要还原剂。     

Does haze pollution affect public health in China from the perspective of environmental efficiency?

Environment, Development and Sustainability - This study attempts to introduce haze pollution into the environmental efficiency evaluation framework and measures PM2.5 environmental efficiency in...     

Effects of reciprocal hybridization on cadmium accumulation in F1 hybrids of two Solanum photeinocarpum ecotypes

In this study, farmland and mining ecotypes of Solanum photeinocarpum (a potential cadmium (Cd) hyperaccumulator plant) were reciprocally hybridized each other, and the Cd accumulation characteristics of the F1 hybrids were studied. In pot experiments, higher biomasses and Cd extraction abilities were found for two S. photeinocarpum F1 hybrids than for the parents, but the Cd contents in various organs were lower in the hybrids than the parents. However, the differences between the Cd contents in the two hybrids were not significant. The antioxidant enzyme (superoxide dismutase and peroxidase) activities were higher for the S. photeinocarpum F1 hybrids than the parents. Less DNA methylation was found in the hybrids than the parents because more demethylation occurred in the hybrids than the parents. The biomass, Cd content, and Cd extraction ability effects in field experiments were similar to the effects in the pot experiments. It was concluded that reciprocally hybridizing different S. photeinocarpum ecotypes improved the ability of S. photeinocarpum to be used to phytoremediate contaminated land.

     

UASB法处理城市生活垃圾焚烧场渗滤液

垃圾焚烧场的渗滤液具有pH低、污染成分复杂、COD_(Cr)浓度高、可生化性好等特点。本研究探索了UASB法处理焚烧场渗滤液时的快速启动方法,考察了水力停留时间、容积负荷对COD_(Cr)去除率的影响及产气量与COD_(Cr)去除率的关系,结果表明,在水力停留时间6d、容积负荷5kg/(m3.d)的情况下,COD_(Cr)去除率可达到93%,每升原水产气量可达22.5L,折合热值492.7kJ。     

Combination with catalyzed Fe(0)-carbon microelectrolysis and activated carbon adsorption for advanced reclaimed water treatment: simultaneous nitrate and biorefractory organics removal

A process combining catalyzed Fe(0)-carbon microelectrolysis (IC-ME) with activated carbon (AC) adsorption was developed for advanced reclaimed water treatment. Simultaneous nitrate reduction and chemical oxygen demand (COD) removal were achieved, and the effects of composite catalyst (CC) addition, AC addition, and initial pH were investigated. The reaction kinetics and reaction mechanisms were calculated and analyzed. The results showed that CC addition could enhance the reduction rate of nitrate and effectively inhibit the production of ammonia. Moreover, AC addition increased the adsorption capacity of biorefractory organic compounds (BROs) and enhanced the degradation of BRO. The reduction of NO₃^?–N at different pH values was consistently greater than 96.9%, and NH₄⁺–N was suppressed by high pH. The presence of CC ensured the reaction rate of IC-ME at high pH. The reaction kinetics orders and constants were calculated. Catalyzed iron scrap (IS)-AC showed much better nitrate reduction and BRO degradation performances than IS-AC and AC. The IC-ME showed great potential for application to nitrate and BRO reduction in reclaimed water.