利用X射线吸收近边结构光谱(XANES)研究水泥窑共处置产品中Ni和Cd的微观组成

在模拟水泥窑中高温煅烧掺有Ni、Cd化学试剂的水泥生料,并由制取的水泥熟料制备水泥净浆片.利用X射线吸收近边结构光谱（XANES）对水泥窑共处置产品中Ni、Cd的微观组成进行了研究.结果表明：Ni在水泥窑煅烧过程中发生了较为彻底的化学变化,形成了Ni-Mg化合物,该化合物可能是以氧化物、氢氧化物或碳酸盐的形式存在;水泥...     

春季黄渤海大气气溶胶的离子特征与来源分析

于2010年春季在黄海、渤海海域采集大气气溶胶总悬浮颗粒物（TSP）样品,并运用离子色谱法对其中主要的水溶性阴离子（Cl-、NO3-、SO24-、CH3SO3-（MSA））和阳离子（Na＋、K＋、NH4＋、Mg2＋、Ca2＋）浓度进行了测定.分析结果显示,黄海、渤海气溶胶样品中主要水溶性离子总浓度分别为10.2～47....     

亚硒酸盐对四种蔬菜生长、吸收及转运硒的影响

采用土培盆栽试验和室内分析相结合的方法,研究了添加不同含量外源亚硒酸盐对小白菜、芥菜、生菜和菠菜的生长、吸收及转运硒的影响.结果表明,低含量硒(＜3.81 mg·kg-1)对供试的4种蔬菜的生长均有促进作用,而高含量硒(＞29.91 mg·kg-1)却显著抑制蔬菜的生长,并对供试蔬菜的茎、根产生明显的毒害作用.同等硒添...     

基于格网的太湖生态环境质量空间评价

将GIS格网空间分析技术应用于太湖生态环境综合评价,实现了全湖范围内多因素的综合评价,揭示太湖生态环境状况的空间分布规律。首先将太湖分为800个格网单元,在2002~2003年实测样点的水体、底泥、水生生物特征数据基础上,通过空间插值获得全部单元模拟值,然后进行格网叠加计算,通过层次分析法得出各单元综合评价值,将太湖分为好、较好、中等、较差、差5个等级区,生成太湖生态环境空间综合评价图。结果显示,评价结果与太湖实际情况基本相符,太湖生态环境质量基本上由东南向西北逐渐降低,中等以下地区占全部湖区的一半以上,整体状况偏差。     

水泥窑协同处置POPs污染土壤对环境的影响研究

 分析了水泥窑协同处置POPs污染土壤对烟气中污染物排放和熟料品质的影响,结果表明,SO2、NOx、HCl、Hg、As、Ni、Pb、粉尘、二 的排放量均低于工业大气污染物排放规定限制,与空白试验相比,水泥窑协同处置污染土壤过程中烟气中特征污染物排放量没有显著增加.水泥熟料化学成分满足相关规定,熟料产品质量达到相关标准,因此利用水泥窑协同处置POPs污染土壤是一种环境友好处理方式.     

沈阳市生活垃圾排放现状及产生量预测

随着城市化进程加快、人口数量快速增加及人民生活水平普遍提高,城市生活垃圾管理已成为世界各国,特别是发展中国家城市面临的主要挑战.作为中国东北最大的中心城市,沈阳正面临城市生活垃圾产生量急剧增加的现状.文章通过对沈阳市城市生活垃圾排放现状的分析,发现2002年后沈阳市生活垃圾产生量和清运量逐年增加,生活垃圾成分变化显著....     

富营养化水体中黑水团的吸收及反射特性分析

对黑水团水体光学特性进行研究,是利用遥感技术监测和评估黑水团事件的前提.针对2015年7月在太湖发生的黑水团现象,采集了太湖黑水团区(区域一)、蓝藻水华区(区域二)、清水区(区域三)共36个水样,对这3个区域的水体遥感反射率以及吸收特性进行对比分析.结果表明:1区域一水体的总颗粒物、色素颗粒物和非色素颗粒物吸收系数比区域二、区域三高出1~2倍,在400~500 nm之间,区域一CDOM吸收系数相比另外两个区域的水体高出2倍左右.导致黑水团区域水体具有很低的遥感反射率,被人眼感知时呈现为黑色;2黑水团区域水体M值低于滇池、巢湖和太湖的M值变化范围,说明黑水团中CDOM的腐殖酸含量较高.此外,叶绿素a浓度与CDOM在350 nm处吸收系数之间具有很好的相关性,表明蓝藻的降解可能是黑水团中CDOM的一个主要来源;3在380 nm之后,黑水团区域的水体总吸收以色素颗粒物占主导,但在短波350~380 nm处,CDOM对总吸收的贡献率高于色素颗粒物和非色素颗粒物.     

Enhanced struvite recovery from wastewater using a novel cone-inserted fluidized bed reactor

The feasibility of struvite recovery at low （12.5 mg/L） and high （120 mg[L） phosphorus concentrations was studied by constructing a novel fluidized bed reactor with cones （FBRwc） and without cones （FBRwoc）. The crystallization process was continuously operated for 133 days under different hydraulic retention times （HRT = 1-10 hr）, pH （7.5-10）, and molar ratios of Mg/P （0.75-1.75）, N/P （1-10） and Ca/Mg （0-2）. The optimum operating conditions of HRT, pH, Mg/P and N/P molar ratios were found to be 2 hr, 9, 1.25, and 7.5, respectively. Under these optimum conditions, the phosphorus precipitation efficiencies of FBRwc were 93% for low and 98% for high phosphorus influent; however, the efficiencies were 78% and 81% for FBRwoc, respectively. Due to crystal losses at each junction （17%-31%）, the crystal recovery efficiency of FBRwoc was relatively low （47%-65%） for both influent concentrations. However, the losses were minimal in FBRwc, which showed 75% and 92% crystal recovery for low and high phosphorus concentrations, respectively. At low calcium concentration, crystal chemical analysis showed the product to be pure struvite （〉 99%）. The scanning electron microscope and X-ray diffraction results further confirmed that the crystal recovered from FBRwc contained pure struvite, which could be considered a high quality fertilizer. Except HRT, all parameters （pH, Mg/P, N/P and Ca/Mg） were found to be influencing factors for FBRwc performance. Overall, inserting cones in each part of the reactor played a significant role in enhancing struvite recovery from a wide range of phosphorus-containing wastewater.     

Arsenic removal from groundwater by acclimated sludge under autohydrogenotrophic conditions

Arsenic in the environment is attracting increasing attention due to its chronic health effects. Although arsenite(As(III)) is generally more mobile and more toxic than arsenate(As(V)), reducing As(V) to As(III) may still be a means for decontamination, because As(III) can be removed from solution by precipitation with sulfide or by adsorption or complexation with other metal sulfides. The performance of As(V) bio-reduction under autohydrogenotrophic conditions was investigated with batch experiments. The results showed that As(V) reduction was a biochemical process while both acclimated sludge and hydrogen were essential. Most of the reduced arsenic remained in a soluble form, although 20% was removed with no addition of sulfate, while 82% was removed when sulfate was reduced to sulfide. The results demonstrated that the reduced arsenic was re-sequestered in the precipitates, probably as arsenic sulfides. Kinetic analysis showed that pseudo first-order kinetics described the bio-reduction process better than pseudo second-order. In particular, the influences of pH and temperature on As(V) reduction by acclimated sludge under autohydrogenotrophic conditions and total soluble As removal were examined. The reduction process was highly sensitive to both pH and temperature, with the optimum ranges of pH 6.5–7.0 and 30–40°C respectively. Furthermore, Arrhenius modeling results for the temperature effect indicated that the As(V) reduction trend was systematic. Total soluble As removal was consistent with the trend of As(V) reduction.     

生态文明建设理论发展历程初探

生态文明建设理论以可持续发展、环境保护及生态学理论为基础,吸收了中国传统文化的养分,目前已成为中国特色社会主义道路的有机组成部分,得到了党和国家的高度重视.本文对生态文明建设理论的产生背景和过程进行了简单梳理.