转盘式光催化燃料电池处理染料废水

采用阳极氧化法制备转盘式TiO_2阳极,设计并开发了转盘式光催化燃料电池(PFC),探讨了圆盘转速对PFC中染料降解效果的影响。实验结果表明:随着圆盘转速的提高,污染物和光电界面反应产物的传质作用得以强化,罗丹明B降解率提高;在圆盘转速为1 600 r/min、反应时间为60 min的条件下,罗丹明B降解率达90.8%,是圆盘转速为0 r/min时的8.5倍;光电流也随着圆盘转速的提高而提高,但提高幅度远小于罗丹明B降解率的提高幅度;同时,加强传质作用后再外加电压对PFC催化降解性能的提高作用有限。     

Spatial and temporal variation of soil organic carbon in the North China Plain

The organic carbon, permeability test, grain size, chemical composition, and mineral composition were analyzed for 147 samples collected from the Luan River catchment, Hebei province, China, to quantitatively characterize the effects of land use, climate change, sedimentary environment, mineral composition, and chemical composition on the spatial and temporal variation of soil organic carbon (SOC). The results indicate that there was higher SOC content and stronger variation in the south plain than in the northern low mountain. The effects of land use, climate change, and sedimentary environment on SOC distribution were greater than the effects of mineral composition and chemical composition. The cropping systems in the Luan River catchment resulted in significant difference in SOC concentration between the south plain and north mountain. The precipitation mainly transmitted its effects through the sedimentary environment to SOC, which caused the stronger temporal variation in SOC from June to October in the south plain. The north mountain did not have significant temporal variation because of the lower hydraulic conductivity of the sedimentary sequence. The spatial variation of SOC was correlated with land use, and their temporal variation was attributed to climate change and sedimentary environment. Apart from land use, the decision maker can also affect the organic carbon mineral and sequence through the sedimentary environment.     

西宁市非采暖季和采暖季PM2.5中14种金属元素特征

于2012年11月采暖季和2013年9月非采暖季,在青藏高原典型城市西宁市4个采样点采集细颗粒物(PM_(2.5))样品,共获得40个有效样品。用微波消解-ICP-MS法、原子荧光法分析了样品中14种重点防控金属。结果表明:14种重点防控金属中Ag、Tl平均质量浓度为0.10~0.50 ng/m~3,Co、Sb、Hg平均质量浓度为0.50~4.00 ng/m~3,V、Cd、Cr、Ni、Cu、As平均质量浓度为4.00~50.0 ng/m~3,Mn、Pb、Zn平均质量浓度为50.0~2 000 ng/m~3。采样期间,采暖季相比非采暖季,PM_(2.5)质量浓度有下降趋势,不同采样区金属元素浓度有增有减。富集因子分析结果表明,重点防控金属元素在非采暖季主要来源于土壤风沙扬尘、机动车尾气和工业排放,采暖季主要来源于土壤风沙扬尘、燃煤、燃油、机动车尾气和工业排放。非采暖季Zn、Ag、Cd、Hg、Tl和Pb富集因子较高,采暖季Zn、As、Ag、Cd、Sb、Hg、Tl、Pb富集因子较高,更容易受到人为源的影响。     

水系沉积物重金属分析前处理方法

建立了水系沉积物中6种重金属分析的前处理方法,研究了样品粒径、消解前处理对测定结果的影响,对方法适用性作出评价,并对实际样品进行测定。结果表明:通过Hg元素含量的测定,粒径为0.147 mm的沉积物粒径可满足分析要求;采用微波-硝酸-盐酸-氢氟酸消解、ICP-MS法,对5种不同类型沉积物标准样品的6种重金属的测定结果显示,该方法精密度好、准确度高。利用建立的方法测定广西某河流湖库沉积物样品,6种元素测定结果 RSD为1.57%~11.1%,加标回收率大于74.4%。     

易分解碳输入模式对沉积物共代谢效应的影响

通过构建室内微宇宙系统,运用稳定碳同位素示踪法,解析混合处理组中各有机组分代谢释放的CO2含量,探讨相对易分解碳源的输入对湖泊沉积物有机碳矿化过程的影响.结果表明:添加相对易分解碳源的处理组中,CO2排放量明显升高,较对照组分别提高了45.49％(单次添加组)、52.61％(重复添加组)和57.65％(连续添加组),分...     

汽车减震器悬挂弹簧用粉末涂料的研制

通过研究了不同反应体系、不同厂家树脂以及促进剂的选择及用量对弹簧用粉末涂料的外观和性能(包括耐冲击性能、柔韧性、附着力、耐碎石冲击性、耐中性盐雾性、耐油性、耐溶剂性、耐水性、抗结团性)的影响,最终制备出一种满足汽车减震器悬挂弹簧涂装喷涂要求的粉末涂料,该涂料具备优良的机械性能和高防腐性能,且在健康环保、节能和贮存稳定性方面更具优势。     

不同种植方式下伊乐藻生长对沉积物磷的影响

将伊乐藻以直接抛掷、直接扦插和断枝抛掷3种方式种植,测定其上覆水TP、DO、pH和沉积物中各形态磷。结果表明:(1)实验结束(120d)时,直接抛掷、直接扦插和断枝抛掷处理组的的生物量分别增加69.14、50.32、46.15g,从长期来看,直接抛掷最有利于伊乐藻生物量的增长。(2)实验结束时,直接抛掷、直接扦插和断枝抛掷处理组的沉积物中TP分别下降了8.90%、7.30%、5.40%;无机磷分别下降了11.80%、8.20%、6.60%;有机磷分别下降了7.47%、6.46%、2.65%;NaOH提取态磷分别下降了19.90%、17.20%、11.70%;HCl提取态磷分别下降了4.12%、3.47%、2.83%。直接抛掷种植伊乐藻对沉积物中各形态磷的去除效果最好。(3)上覆水TP与沉积物中各形态磷呈正相关,说明沉积物中的磷是上覆水中磷的重要来源;上覆水TP和沉积物各形态磷均与伊乐藻生物量呈负相关,说明伊乐藻可以有效去除上覆水和沉积物中的磷;DO和pH与生物量呈正相关,而与上覆水TP和沉积物各形态磷呈负相关,说明上覆水DO和pH主要受伊乐藻的影响。     

Adsorption characteristics of ciprofloxacin onto g-MoS2 coated biochar nanocomposites

• The g-MoS₂ coated composites (g-MoS₂-BC) were synthesized. • The coated g-MoS₂ greatly increased the adsorption ability of biochar. • The synergistic effect was observed for CIP adsorption on g-MoS₂-RC700. • The adsorption mechanisms of CIP on g-MoS₂-BC were proposed. The g-MoS₂ coated biochar (g-MoS₂-BC) composites were synthesized by coating original biochar with g-MoS₂ nanosheets at 300°C(BC300)/700°C (BC700). The adsorption properties of the g-MoS₂-BC composites for ciprofloxacin (CIP) were investigated with an aim to exploit its high efficiency toward soil amendment. The specific surface area and the pore structures of biochar coated g-MoS₂ nanosheets were significantly increased. The g-MoS₂-BC composites provided more π electrons, which was favorable in enhancing the π-π electron donor-acceptor (EDA) interactions between CIP and biochar. As a result, the g-MoS₂-BC composites showed faster adsorption rate and greater adsorption capacity for CIP than the original biochar. The coated g-MoS₂ nanosheets contributed more to CIP adsorption on the g-MoS₂-BC composites due to their greater CIP adsorption capacity than the original biochar. Moreover, the synergistic effect was observed for CIP adsorption on g-MoS₂-BC700, and suppression effect on g-MoS₂-BC300. In addition, the adsorption of CIP onto g-MoS₂-BC composites also exhibited strong dependence on the solution pH, since it can affect both the adsorbent surface charge and the speciation of contaminants. It was reasonably suggested that the mechanisms of CIP adsorption on g-MoS₂-BC composites involved pore-filling effects, π-π EDA interaction, electrostatic interaction, and ion exchange interaction. These results are useful for the modification of biochar in exploiting the novel amendment for contaminated soils.     

土壤对三氯乙烯的吸附行为及其影响因素

基于静态吸附实验对土壤吸附三氯乙烯的影响因素进行研究,通过利用有机质含量为0.96%的土样及经375℃、600℃、次氯酸钠和联合氧化方法(600℃+次氯酸钠)处理后的土样为吸附剂,考察了各种土样吸附TCE的吸附动力学和吸附热力学,以及土壤中有机质含量、软碳、硬碳、矿物质、TCE初始浓度和钙离子强度对吸附作用的影响.结果表明,土壤对TCE的吸附分为快速吸附、慢速吸附和平衡3个阶段,并在30 h左右达到吸附平衡,且吸附过程符合准二级动力学方程(R~298%);Freundlich模型能较好地拟合TCE在土壤中的吸附等温曲线(R~293%);土壤对TCE的吸附以物理吸附为主,其中吸附贡献主要为硬碳(60%);TCE浓度的升高可以增加矿物质的吸附贡献率;离子强度的增加显著降低了土壤各组分对TCE的吸附.