动态浸出模拟实验系统与静态浸出试验的对比

建立了动态浸出试验－－小柱模拟实验系统,研究在非饱和水条件下危险物质在填埋场中的迁移和浸出规律,并和静肪浸出实验进行比较,结果表明,在非饱和入渗条件下危险物质的浸出浓度要比静态浸出实验的结果小１００倍左右,危险发的浸出速率也远小于静实验的结果,同时,危险物质的浸出速率随废物层饮水度的增加而迅速增加。     

德国可再生能源利用现状与减少CO2排放量的探讨

联邦德国为了降低矿物燃料的消耗并减少ＣＯ２的排放量,在发展和利用再生能源方面作出了巨大的努力。本文阐述了德国可再生能源的利用现状,分析了利用可再生能源的技术,经济方面的问题,讨论了减少ＣＯ２排放理的有效方法。     

Efficient production of hydrogen peroxide in microbial reverse-electrodialysis cells coupled with thermolytic solutions

● Appreciable H₂O₂ production rate was achieved in MRCs utilizing NH₄HCO₃ solutions. ● Carbon black outperformed activated carbon as the catalyst for H₂O₂ production. ● The optimum carbon black loading for H₂O₂ production on air-cathode was 10 mg/cm². ● The optimum number of cell pairs was determined to be three. ● A maximum power density of 980 mW/m² was produced by MRCs with 5 cell pairs. H₂O₂ was produced at an appreciable rate in microbial reverse-electrodialysis cells (MRCs) coupled with thermolytic solutions, which can simultaneously capture waste heat as electrical energy. To determine the optimal cathode and membrane stack configurations for H₂O₂ production, different catalysts, catalyst loadings and numbers of membrane cell pairs were tested. Carbon black (CB) outperformed activated carbon (AC) for H₂O₂ production, although AC showed higher catalytic activity for oxygen reduction. The optimum CB loading was 10 mg/cm² in terms of both the H₂O₂ production rate and power production. The optimum number of cell pairs was determined to be three based on a tradeoff between H₂O₂ production and capital costs. A H₂O₂ production rate as high as 0.99 ± 0.10 mmol/(L·h) was achieved with 10 mg/cm² CB loading and 3 cell pairs, where the H₂O₂ recovery efficiency was 52 ± 2% and the maximum power density was 780 ± 37 mW/m². Increasing the number of cell pairs to five resulted in an increase in maximum power density (980 ± 21 mW/m²) but showed limited effects on H₂O₂ production. These results indicated that MRCs can be an efficient method for sustainable H₂O₂ production.     

Enhancement of extracellular Cr(VI) reduction for anammox recovery using hydrazine: performance,pathways, and mechanism

● N₂H₄ addition enhanced and recovered anammox performance under Cr(VI) stress. ● N₂H₄ accelerated electron transfer of Cr(VI) reduction for detoxification. ● N₂H₄ enhanced anammox metabolism for activity recovery from Cr(VI) inhibition. ● Extracellular Cr(VI) reduction to less toxic Cr(III) was the dominant mechanism. The hexavalent chromium (Cr(VI)) would frequently impose inhibition to anaerobic ammonium oxidation (anammox) process, hindering the efficiency of nitrogen removal in wastewater treatment. Hydrazine (N₂H₄), which is an intermediate product of anammox, participates in intracellular metabolism and extracellular Cr(VI) reduction. However, the roles of N₂H₄-induced intracellular metabolism and extracellular reduction in nitrogen removal under Cr(VI) stress remain unclear. The addition of 3.67 mg/L of N₂H₄ increased the anammox activity by 17%. As an intermediate, N₂H₄ enhanced anammox metabolism by increasing the heme c content and electron transfer system activity. As a reductant, N₂H₄ accelerated the reduction of c-Cyts-mediated extracellular Cr(VI) to the less toxic Cr(III). Extracellular Cr(III) accounts for 74% of the total Cr in a Cr(VI)-stressed anammox consortia. These findings highlight that N₂H₄-induced extracellular Cr(VI) reduction is the dominant mechanism for the survival of anammox consortia. We also found that N₂H₄ increased the production of extracellular polymeric substances to sequester excessive Cr(VI) and produced Cr(III). Taken together, the study findings suggest a potential strategy for enhancing nitrogen removal from ammonium-rich wastewater contaminated with Cr(VI).     

天山北坡经济带城市NO2污染的时空分布特征

基于2015—2020年近地面NO₂质量浓度数据和2019年哨兵-5P TROPOMI卫星探测的对流层NO₂柱浓度数据,采用相关性分析、趋势分析等方法探究新疆天山北坡经济带6个城市NO₂污染的时空分布特征。结果表明：（1）从年均值来看,天山北坡经济带NO₂质量浓度总体呈下降趋势,尤其2018—2020年下降明显。其中乌鲁木齐NO₂质量浓度值最高、博乐最低。（2）从季度均值和月均值来看,各城市NO₂质量浓度季节变化明显,其中夏季最低、冬季最高;月均值呈“中间低、两头高”的变化特征。（3）从日均值来看,各城市NO₂质量浓度大多呈现双峰型分布,分别出现在早上10:00和晚上23:00。（4）从空间分布来看,NO₂柱浓度高值区多分布在人口密集和工业发达的城市地区,尤其是乌鲁木齐、昌吉、五家渠、石河子污染最为严重。     

电生成Fenton试剂及其对十二烷基苯磺酸钠降解的研究

以电化学方法制备·OH ,并探讨了体系内的反应机理 ;电生成·OH对十二烷基苯磺酸钠 (dodecylben zenesul phonicacid (6 ) sodiumsalt ,DBS)水溶液有明显的降解效果 ,CODCr降解率 >85 % ;比较了处理前后DBS的红外光谱、UV、I V循环伏安曲线的变化。·OH可以将DBS中的烷基碳链断裂 ,并最终将其降解为H2 O和CO2 等无机小分子。     

黄河水体颗粒物对硝化过程的影响研究

针对黄河高含沙量的特点,通过模拟实验研究了颗粒物对氨氮硝化速率的影响.结果表明:颗粒物含量对水体的硝化速率存在着较显著的影响,颗粒物含量越高,硝化过程进行越快.其影响机制主要是:(1)水体颗粒物对氨氮存在吸附作用;(2)水体中颗粒物的含量影响体系氨化细菌、亚硝化细菌和硝化细菌的生长;(3)各种菌在固液两相生长规律不同.     

通信作业环境空气质量的测定及评价指标相关性

选择计算机终端室，通信机房，通信值班室３个典型作业环境，在设立室外对照点的情况下，现场测定ＣＯ２、ＣＯ、ＩＰ、细菌总数、空气离子、挥发性有机物（ＶＯＣｓ）等１０个指标。结果显示：上述指标在机主主作业环境内均得以检出，其中ＶＯＣｓ浓度较高据日均值和１ｄ的浓度变化趋势，各指标间存在一定的相关性，物品是空气离子与ＣＯ４、ＣＯ、ＶＯＣｓ、细菌总数、ＩＰ等具有正或负的相关性，可作为评价通信作业环境空气质量的     

突发有毒气体泄漏事故应急模型开发

针对突发有毒气体泄漏事故,基于环境毒理学、GIS以及运筹学等基本方法和研究成果,探讨应急模型的建模方法和开发过程。使用高斯烟羽模型预测泄漏气体的扩散;基于毒气负载和AEGL标准评估事故危害,并开发以建筑物吸引率为核心的影响居民估算方法;基于最小伤害准则计算最佳应急疏散路线,并使用Logit模型进行疏散暴露评估;以最短救援时间为目标构建医疗资源的配置模型。将应急模型应用于模拟的气体泄漏场景,结果表明,模型开发方法有效,应急模型具有实用性,能够为应急决策提供重要的参考。     

黄河水体颗粒物对3种多环芳烃光化学降解的影响

研究了、苯并(a)芘、苯并(ghi)3种多环芳烃在黄河水体中的光化学降解规律,探讨了黄河泥沙和黄土2种颗粒物对多环芳烃光化学降解的影响.结果表明:①当水体不含任何颗粒物时,多环芳烃的光降解符合一级反应动力学规律,且反应动力学常数随污染物初始浓度的降低而增加;3种多环芳烃的光降解速率与分子的吸收光谱相关.②黄土通过对光强的阻碍作用和其中所含腐殖质的光敏化作用影响多环芳烃的光化学降解,这2方面的共同作用导致不同浓度黄土所产生的影响不同.黄土浓度为0.1g/L或5g/L时促进了和苯并(a)芘的光降解;黄土浓度为5g/L时促进了苯并(ghi)的降解.当水体含有黄土时,多环芳烃的光降解符合二级动力学规律.③对多环芳烃光化学降解起主要作用的是黄土中存在的溶解性腐殖质,非溶解性腐殖质的作用不大.④由于黄河泥沙在河水中长期存在,泥沙中的溶解性腐殖质都已溶于水中,泥沙主要通过对光强的阻碍作用影响水体中多环芳烃的光降解,使光降解速率随泥沙浓度的增加呈幂指数降低.