基于无人机多光谱影像的小微水域水质要素反演

总磷(TP)、悬浮物浓度(SS)、浊度(TUB)3种水质参数可以直接通过遥感反演得到,常用于评价区域水环境的污染状况.以浙江农林大学东湖为研究对像,使用无人机携带多光谱传感器(Mica Sense Red Edge)获取多光谱影像,进而提取16个光谱参数,分别构建东湖水域TP、SS、TUB的反演模型.结果表明:光谱参数V5(NIR 0.770～0.890μm)与TP、SS相关性显著(r分别为0.470、-0.537,p0.05),V4(0.670～0.760μm)与TUB相关性显著(r=0.486,p0.05).在建立的TP反演模型中,指数函数模型精度最高,决定系数R~2为0.7829;在建立的SS、TUB反演模型中,多项式函数模型精度最高,决定系数R~2分别为0.7503、0.7334.经检验,TP、SS、TUB模型估测值与实测值线性拟合曲线的决定系数R~2分别为0.7374、0.8978、0.6726,满足水质要素反演的精度要求.最后利用建立的模型,结合多光谱影像数据,建立了东湖水域各参数的空间分布图,实现了水质参数的可视化,可为小微水域的污染防治提供技术支撑.     

过碳酸钠/钼酸钠体系对2-氯乙基乙基硫醚的降解机理与动力学研究

研究了不同温度下过碳酸钠/钼酸钠体系和单一过碳酸钠对芥子气模拟剂2-氯乙基乙基硫醚（2-CEES）降解动力学规律,建立了相应的反应速率方程;利用液质联用技术分析了降解产物,并利用顺磁共振技术检测了过碳酸钠/钼酸钠体系产生的活性成分,推测了反应机理.结果表明,两种体系对2-CEES降解反应均为一级反应,过碳酸钠/钼酸钠体...     

浅谈化验室采样过程中的HSE管理

简要分析化验室采样过程中存在的问题，并就如何对石化化验室采样过程实行HSE管理提出一些具体的管理办法。     

水中本底成分对O3/H2O2氧化降解2,4-D的影响

重点考察了水中本底成分对O3/H2O2高级氧化工艺去除水中微量农药2,4-D的影响规律.实验结果表明,自来水本底比蒸馏水本底更有利于水中2,4-D的去除;自由基捕获剂叔丁醇对于2,4-D的催化臭氧化反应具有比较明显的抑制作用,但是HCO3-却对水中2,4-D的氧化降解有一定的促进作用;一定浓度的腐殖酸对于2,4-D的催化臭氧化反应具有比较明显的促进作用,较高浓度的腐殖酸对于2,4-D的催化臭氧化反应具有明显的抑制作用;水中的Na 、K 、Mg2 、Ca2 、Cu2 、Zn2 在较低浓度时对2,4-D的降解没有明显影响,在高浓度时有一定的抑制作用;Co2 、Ni2 、Ca2 、Cr3 在较低浓度时对2,4-D的氧化降解有促进作用,高浓度时候有一定的抑制作用.     

建筑施工现场作业人员安全培训模式的改进

施工作业人员的违章行为是导致建筑施工安全事故发生的主要原因,如何高效开展作业人员的安全培训是减少违章行为的关键.本文基于实地访谈与问卷调查,总结作业人员安全培训中存在的主要问题并分析原因;基于整体性、针对性、反馈性等原则提出改进方案,建立培训矩阵;依据系统型、柯氏评估等理论从培训需求、计划、实施、评估、监管等方面出发构建模式图;最后应用对比分析法和实证分析法,从培训满意度、"行为安全之星"数量、伤害率3方面对培训模式效果进行验证,结果表明:所构建安全培训矩阵能显著提升培训效果,减少作业人员的违章行为,取得良好效果.     

Kinetics of hexavalent chromium reduction by iron metal

The kinetics of Cr(VI) reduction to Cr(III) by metallic iron (Fe⁰) was studied in batch reactors for a range of reactant concentrations, pH and temperatures. Nearly 86.8% removal efficiency for Cr(VI) was achieved when Fe⁰ concentration was 6 g/L (using commercial iron powder (< 200 mesh) in 120 min). The reduction of hexavalent chromium took place on the surface of the iron particles following pseudo-first order kinetics. The rate of Cr(VI) reduction increased with increasing Fe⁰ addition and temperature but inversely with initial pH. The pseudo-first-order rate coefficients (k _obs) were determined as 0.0024, 0.010, 0.0268 and 0.062 8 min⁻¹ when iron powder dosages were 2, 6, 10 and 14 g/L at 25°C and pH 5.5, respectively. According to the Arrehenius equation, the apparent activation energy of 26.5 kJ/mol and pre-exponential factor of 3 330 min⁻¹ were obtained at the temperature range of 288–308 K. Different Fe⁰ types were compared in this study. The reactivity was in the order starch-stabilized Fe⁰ nanoparticles > Fe⁰ nanoparticles > Fe⁰ powder > Fe⁰ filings. Electrochemical analysis of the reaction process showed that Cr(III) and Fe(III) hydroxides should be the dominant final products.     

VOCs released from municipal solid waste at the initial decomposition stage: Emission characteristics and an odor impact assessment

The nuisance from odor caused by municipal solid waste (MSW) is resulting in a growing number of public complaints and concerns. Odor pollution occurs in the initial decomposition stage of MSW, including waste collection, transportation and early pre-treatment. Furthermore, decomposition takes place in waste facilities that are often close to living areas, which can result in odor impacts on local inhabitants. However, this aspect of odor impact from MSW has not been well studied. In the current study, lab-scale waste cells were designed to simulate MSW storage conditions in the early stage. The characteristics of VOCs emissions with different waste compositions were analyzed. The odor concentration (C_O, non-dimensional) method and odor intensity were used for the assessment of odor. Ethanol was the substance with highest emission rate. The release rate of VOCs increased with the growth easily biodegradable waste (EBW). VOCs emissions was reduced by 25% when the proportion of EBW decreased from 60% to 45%. Methyl sulfide, ethanol, dimethyl disulfide and ethyl acetate were identified as typical odorants. The EBW proportion in waste is the main factor significantly influencing odor pollution. The C_O was 244.51 for the 60% EBW condition, which was only 61.46 for 15% EBW condition. These study results provide important information for the implementation of a garbage sorting policy and the monitoring of odor pollution from waste management.     

纳米ZnO浓度对EBPR系统除磷性能的影响

采用SBR工艺接种成熟的强化生物除磷(EBPR)絮状污泥,研究了不同浓度纳米ZnO(ZnO NPs)对颗粒化EBPR系统性能的影响。结果表明:低浓度(≤1 mg/L)ZnO NPs可促进厌氧释磷和好氧吸磷作用;随着ZnO NPs浓度的增加,磷酸盐及COD去除能力受到明显抑制;在厌氧释磷过程中,PAOs对ZnO NPs的毒性更为敏感;与未受ZnO NPs污染的系统相比,ZnO NPs浓度为15 mg/L条件下的释磷速率与吸磷速率分别下降了0.1 mg/(gVSS·min)和0.15 mg/(gVSS·min)。     

北京某污水处理厂污泥重金属污染特征、潜在生态风险及健康风险评价

连续采集了北京市某污水处理厂污泥,样品经过微波消解后利用ICP-OES测定重金属含量,同时,利用BCR连续提取分析方法分析了污泥中重金属赋存形态.在分析测定污泥中Pb、Zn、Cd、Cr、As、Ni、Cu 7种重金属含量及形态的基础上,开展了污泥重金属污染水平评价、潜在生态风险评价及健康风险评价.结果表明,污泥中重金属含量最高的是Zn,含量为930.08 mg·kg-1,残渣态及可提取态所占比例最高的元素分别是Pb和Ni,所占比例分别为80.86%及18.84%;污泥重金属综合污染指数为4.84,属重度污染;污泥重金属潜在环境综合风险指数为237.60,属极高生态风险.基于健康风险评价模型建立两条暴露途径,分别对儿童及成人进行健康风险评价,得出儿童非致癌指数及致癌指数分别为2.02×10-1和1.44×10-4,而成人非致癌指数及致癌指数分别为7.21×10-2和5.13×10-5.