广西典型岩溶地区重金属在土壤-农作物系统中累积特征及其影响因素

为了揭示碳酸盐岩区土重金属高背景值区土壤-农作物系统中重金属的迁移和累积特征,选择广西典型碳酸盐岩高背景值区,系统采集了大宗农作物及其配套耕层土145组,分析了耕层土壤和农作物中As、Cd、Cr、Pb、Hg、Cu、Ni、Zn的含量,并通过统计分析、计算生物富集因子及相关分析等方法,开展重金属元素在典型岩溶区土壤-农作物...     

Nanoparticle-free and self-healing amphiphobic membrane for anti-surfactant-wetting membrane distillation

In membrane distillation (MD), complicated feed water with amphiphilic contaminants induces fouling/wetting of the MD membrane and can even lead to process failure. This study reports a facile approach to fabricate robust and self-healing hybrid amphiphobic membranes for anti-surfactant-wetting MD based on the ultra-low surface energy of fluorinated polyhedral oligomeric silsesquioxanes (F-POSS) and its thermal induced motivation and rotation. The thermal treatment makes the membranes achieving amphiphobicity at a very low cost of F-POSS (13.04 wt.%), which is about 1/3 of without thermal treatment. The prepared membrane exhibits excellent amphiphobicity, i.e. ethanol contact angle of 120.3°, without using environmentally toxic fluorinated nanoparticles. Robust MD performance was observed for the amphiphobic membrane in concentrated sodium dodecyl sulfate (SDS) feed solutions. Furthermore, the fabricated membrane exhibited stable amphiphobicity even in extreme environments, including strong acid or alkaline solutions. In the event of a damaged or abraded membrane surface where the F-POSS can be removed, the amphiphobic membrane exhibits self-healing ability with additional thermal treatment. This simple approach without the use of nanoparticles provides an environmentally friendly way for fabrication of amphiphobic membranes for anti-surfactant-wetting membrane distillation.     

水产养殖水、沉积物中抗生素检测方法优化及残留特征研究

抗生素作为疾病预防和促进生长的药物被广泛用于水产养殖业中,不可避免地造成了周围环境抗生素的残留,从而带来各种潜在风险。为了对水产养殖水和沉积物中的抗生素残留特征进行研究,建立了环境样品中抗生素的富集方法。对沉积物中抗生素的提取溶剂、HLB小柱活化溶剂和洗脱溶剂进行了筛选,利用高效液相色谱串联质谱仪对15种抗生素进行检测分析,并检测了上海市某水产养殖区7个养殖塘2018年9、12月抗生素的残留水平。结果表明,选用乙腈/磷酸盐缓冲溶液(V∶V=1∶1)作为提取溶剂,依此用甲基叔丁基醚、甲醇和超纯水作为活化溶剂,甲醇作为洗脱溶剂时目标抗生素的回收率最高;在养殖塘水体中共检测出10种抗生素,检出浓度中间值依次为:磺胺类>甲氧苄啶>阿莫西林>氟喹诺酮类>喹乙醇>四环素类和呋喃唑酮。养殖塘沉积物中共检测出13种抗生素,检出浓度中间值依次为:氟喹诺酮类>四环素类>磺胺类>甲氧苄啶>喹乙醇>阿莫西林和呋喃唑酮;不同品种的养殖塘中抗生素的检出种类均不相同,其中青鱼塘和白水鱼塘10种、虾塘9种、扣蟹塘仅5种。对比抗生素检出浓度发现:氟喹诺酮类抗生素在鱼类养殖塘中检出浓度最高,磺胺甲恶唑仅在蟹塘检出,喹乙醇在虾塘检出浓度达3 612.85 ng·L~(-1)。9月与12月抗生素的残留水平也存在差异,抗生素在9月的平均含量比12月高。     

Quantification of pesticide residues on plastic mulching films in typical farmlands of the North China

• Pesticide residuals on mulching film of Shandong, Tianjin and Hebei. • Detected 29 pesticides in soil and 30 in mulching film. • Pesticides on plastic films: 86.4‒22213.2 ng/g and in soil: 9.3‒535.3 ng/g. • Pesticides on plastic films 20 times higher than in soil. Plastic debris as new pollutants attracts much attention in the recent years. The plastic mulching films is one of the most important plastic debirs source in the environment. The aim of this work was to investigate the current status of pesticide residues on the plastic mulching films. Based on the QuEChERS method, multi-residue methods for detection of pesticide residues with gas chromatography tandem mass spectrum (GC-MS) and high performance liquid chromatography tandem mass spectrum (HPLC-MS) were developed for the analysis of the pesticides residues in plastic film and soil samples from Tianjin, Hebei and Shandong. The total concentrations of pesticide residues were in the range of 86.4‒22213.2 ng/g in plastic film debris, which was about 20 times higher than that in soil (9.3‒535.3 ng/g). Residual level of pesticides varied greatly in different samples. The historical usage and recent application of pesticides were the main sources for pesticide residues on plastic films and soil. In short, plastic mulching films could act as a sink for pesticides in farmland and the ubiquitous pesticide residues on plastic films should draw more attention.     

活性炭对含铅废水吸附特性研究

采用静态法用活性炭吸附处理含铅废水,考察了活性炭对含铅废水的吸附特性。结果表明:活性炭对铅离子吸附平衡时间为100 m in;吸附等温方程为:Ce/qe=0.4298+0.0594Ce(25℃),该方程符合Langmu ir型吸附模式,不同温度下吸附平衡参数0RL1,表示该吸附为有利吸附。实验数据应用数学模型拟合,二级相关系数R2=0.9998,显示吸附过程动力学与二级动力学模型相关性较好;计算不同温度下各热力学参数:△Hθ大于零、△Gθ小于零,证实该吸附过程是一个自发吸热过程。△Sθ大于零,表明铅离子在固液界面有序性减小、混乱度增大。△Hθ值很小,说明该过程为物理吸附。     

水温对慢滤池深度处理污水的性能影响

将慢滤池用于污水二级出水的深度处理,利用一套小试装置研究了水温对慢滤池性能的影响。对比慢滤池在冬季和夏季的运行数据,结果发现:从夏季(23~25℃)转到冬季(10~14℃)时,慢滤池对浊度、COD、色度和细菌总数的去除率分别下降了12.5%、26.5%、22.9%和5.8%。水温下降后,虽然慢滤除污染物的整体效果下降,但却对各污染指标表现出不同的规律:水温对COD去除影响最大,而对浊度去除的影响相对较小。在慢滤进水浊度较低的情况下,水温对色度去除的影响程度会位于对COD去除和浊度去除的影响程度之间。无论温度如何变化,慢滤均能保持良好的细菌去除效果。     

苦土处理氮磷废水的研究

采用苦土为沉淀剂对模拟氮磷废水和实际氮磷废水进行了脱氮除磷实验研究,探讨了苦土投加量、pH及反应时间对废水中氮磷去除率的影响。此外,对苦土处理氮磷废水的动力学进行了研究,并对苦土及反应沉淀物进行了XRD分析。结果表明,以苦土为沉淀剂,处理氨氮浓度为200 mg/L的模拟废水的最佳条件为:苦土与氨氮(NH4+-N)的质量比为25∶1,平衡时间10 min,氨氮去除率可达到93%,磷去除率达到99%。用苦土为沉淀剂处理南京某厂的实际氮磷废水(氨氮浓度为590 mg/L,磷浓度为1 630 mg/L),氨氮的去除率达到92%,磷的去除率达到99%。苦土处理氮磷废水的动力学数据符合二级动力学模型,主要以化学反应为主。处理后废水中沉淀物的XRD分析表明其主要成分为磷酸铵镁,进一步证明苦土处理氮磷废水主要以化学反应为主。     

竹丝生物膜反应器修复校园景观水体的实验研究

以竹丝作为填料而组建的接触氧化生物膜工艺对校园景观水体进行易位修复,通过设置5个不同工况以探明竹丝载体在修复轻度污染水体的特性,研究表明:当进水CODMn、氨氮和浊度分别为7.79~24.32 mg/L、1.36~11 mg/L和0.63~33.11 NTU的情况下,其去除率分别为10.57%~74.34%、-83.33%~57.55%和20.01%~100%,不同的运行工况对修复效果的影响不显著;系统在启动后的8 d内即可形成丰富成熟的生物相,而且竹丝上的细菌主要以短杆菌为主;竹丝生物膜反应器修复后的景观水体中的活细菌数量可减少1个数量级。竹丝上的亲水性基团和良好的生物亲和性以及从竹丝上脱落下来的零散竹丝纤维是竹丝填料生物膜快速形成的基础,宏观和微观"网捕"结构是该系统能在极短时间实现高效去除浊度、有机物和细菌等高分子物质的主要原因。     

印染废水处理工艺改造及其效益分析

通过实验数据分析,对本源微生物菌剂处理印染废水的有效性进行了检验。在此基础上,确定了先生物处理后絮凝的处理方式。进而分析了印染废水原处理工艺中存在的问题,并对其进行了改造,即:以本源微生物菌剂为母菌接种于印染废水中,并结合生物铁填料对其进行处理。工艺改造成功启动后,稳定运行结果显示:复合生化池和接触氧化池的处理工艺对色度和COD的平均去除率分别为:55.69%、55.63%和78.53%、78.21%;出水pH、色度和COD的平均值分别为6.6、13倍和93 mg/L,全部满足标准要求。该工艺大大减少了污泥量,且降低了处理费用。     

废轮胎热解炭黑及其改性后的特性研究

对废轮胎热解炭黑(简称热解炭黑)采用硝酸酸洗及酸洗后加入硬脂酸2种改性方法,制备出热解炭黑、酸洗炭黑及硬脂酸改性酸洗炭黑3种炭黑。运用SEM、XPS等分析手段进行了表征。研究表明,硝酸酸洗后热解炭黑的灰分从20.5%降到了4.0%,BET表面积从54.92 m2/g增大到69.62 m2/g,DBP吸收值从123 mL/100g提高到170 mL/100 g。加入硬脂酸后BET表面积和DBP吸收值略有下降。XPS结果显示:热解炭黑表面覆盖有碳质沉积物,表面官能团极性较低;酸洗炭黑表面C—C,C—H含量降低,C—OR、C—OEt和COOR、COOH官能团含量增加;硬脂酸改性后表面含碳官能团基本没有变化,但其表面双键氧的含量高于热解炭黑和酸洗炭黑。