不溶性淀粉黄原酸酯的制备及其处理含铬废水的研究

以玉米淀粉为原料,环氧氯丙烷为交联剂制备交联淀粉,通过正交试验优化了制备工艺条件;用交联淀粉制备不溶性淀粉黄原酸酯（ISX）,通过正交试验优化了ISX制备的工艺条件。研究表明,制备的ISX对模拟含铬废水中铬（VI）的去除率最高可达99%以上。     

高分子重金属絮凝剂CSAX的制备及性能

以玉米淀粉为基体,环氧氯丙烷为交联剂,硝酸铈铵为引发剂,丙烯酰胺为单体,cs2和NaOH为磺化荆.合成了交联淀粉.聚丙烯酰胺-磺原酸酯(CSAX)高分子絮凝剂.用FTIR光谱和元素分析法对合成产物CSAX进行了表征.讨论了环氧氯丙烷的用量、硝酸铈铵的剂量、NaOH和CS2的重量百分比等合成条件对产品性能的影响.结果表明,100g淀粉中环氧氯丙烷的剂量为8mL,硝酸铈铵的用量为6.67×10-4mol·L-1,交联淀粉:NaOH:CS2的质量百分比为2:6:2.4时,获得的絮凝剂CSAX产品具有优良的性能.对同一产品不同储存环境的研究表明.低温避光储存较好.对CSAX絮凝含铜废水形成的污泥做扫描电镜(SEM)和X射线能量色散谱仪(EDS)分析,发现其外部形态和组成成分都发生了很大变化.而CSAX处理实际废水的实验表明,当CSAX的投加剂量为100mol·L-1时. Cu2 、Ni2 的去除率分别达99.1%和82.3%,浊度的去除达96.6%.     

Fenton试剂处理选矿废水的实验研究

研究了用Fenton试剂处理某选矿废水中残余的黄药,分别考查了氧化时间、反应初始pH值、Fe2+浓度及H2O2用量对黄药降解效果的影响,用正交试验确定了四个因素的最好条件。结果表明:初始pH值和H2O2用量是影响去除效果的主要因素;氧化时间为60min,反应初始pH=4,[Fe2+]=20mg/L,[H2O2]=20mg/L,黄药的浓度为125mg/L时,黄药的去除率达到99.5%。     

Persistence of methyl <Emphasis Type="Italic">tertiary</Emphasis> butyl ether (MTBE) against metabolism by Danish vegetation

BACKGROUND: Methyl tertiary butyl ether (MTBE) is the second most highly produced industrial chemical in the US and a frequent groundwater pollutant. At the same time, MTBE is quite persistent to biotic and abiotic decomposition. The goal of this study was to find plant species that could degrade MTBE and might be used in phytoremediation. METHODS: Excised roots and leaves (0.3 g) from more than 24 Danish plant species out of 15 families were kept in glass vessels with 25 ml spiked aqueous solution for 2 to 4 days. MTBE concentrations were 1 to 5 mg/L. Samples were taken directly from the solution with a needle and injected to a purge and trap unit. MTBE and the main metabolite, TBA, were measured by GC/FID. RESULTS AND DISCUSSION: Solutions with roots of poplar (Populus robusta) and a willow hybrid (Salix viminalis x schwerinii) produced TBA in trace amounts, probably stemming from bacteria. Significant MTBE reduction (> 10%) was not observed in any of the tests. Leaves from none of the species (trees, grasses and herbs) reduced the concentration of MTBE in the solution and no TBA, nor any other known metabolite of MTBE, was detected. CONCLUSION: It was not possible to find plants capable of efficiently degrading MTBE. This gives rise to the conclusion that plants probably cannot degrade MTBE at all, or only very slowly. RECOMMENDATIONS AND OUTLOOK: For phytoremediation projects, this has, as consequence, that the volatilization by plants (except with genetically engineered plants) is the only relevant removal process for MTBE. For risk assessment of MTBE, degradation by the plant empire is not a relevant sink process.     

黄原酯棉回收废弃电子电路板中金的研究

废弃电子电路板经王水溶解后，在盐酸介质中，用自制的黄原酯棉吸附。用6mol/L HCl洗涤杂质后，5％Na2SO3洗脱Au，控制溶液的流速为1mL/min。洗脱液浓缩后，再用20％ Na2SO3沉淀得到99.59%Au。     

活性炭吸附二硫化碳解析气相色谱法测定废气中乙酸乙酯和乙酸丁酯研究

采用活性炭管吸附废气中的乙酸乙酯和乙酸丁酯,经二硫化碳萃取解析,使用DM-1色谱柱分离后FID检测.实验结果表明:(1)采用活性炭管吸附废气中的目标组份,富集效率良好,二硫化碳解析率可达92％以上;(2)当乙酸乙酯和乙酸丁酯的含量为6.8～102 ng时,测定结果的相对标准偏差分别在1.8％ ～4.2％和3.2％ ～6.1％之间(n=6);(3)当样品采集量为30 L时,方法检出限分别为0.02 mg·m-3和0.02 mg·m-3.因此,方法能满足实验对空气废气中的乙酸乙酯和乙酸丁酯的检测要求.     

The effects of benomyl and its breakdown products carbendazim and butyl isocyanate on the structure and function of tracheal ciliated cells

Abstract

The effects of the fungicide benomyl and its breakdown products, carbendazim and butyl isocyanate, were examined on canine tracheal epithelial tissue in primary culture. Changes in ciliary frequencies were monitored with an optical spectrum analysis system. Serial dilutions of the test compounds were prepared in 100% corn oil and applied to the cell cultures for intervals up to 6 hours and frequencies measured at intervals of 15 minutes to 1 hour. Benomyl and butyl isocyanate caused concentration‐dependent decreases in ciliary beat frequency. Benomyl at 300 μg/ml (3 mM) caused ciliostasis within 75 minutes of exposure. Butyl isocyanate at a molar concentration three times lower than benomyl (1 mM) caused a similar response, although within 30 minutes. The IBC₅₀ for benomyl was 0.75 mM, while for butyl isocyanate it was 0.52 mM. Carbendazim caused a moderate decrease in frequency over a 6 hour exposure period. Benomyl caused moderate to severe swelling of the mitochondria of ciliated epithelial cells with other cell organelles appearing normal. Butyl isocyanate did not cause any noticeable effect on cell ultrastructure and the apparently low rate of penetration of carbendazim into cells made it impossible to obtain an effect which justified ultrastructural analysis. It appears, at least for benomyl and butyl isocyanate, that while the physiological effect of these two compounds (inhibition of ciliary beat) is the same, the sites of action in the cell may be different.     

Methyl Tertiary Butyl Ether (MTBE) and Other Volatile Organic Compounds (VOCs) in Public Water Systems,Private Wells,and Ambient Groundwater Wells in New Jersey Compared to Regulatory and Human-Health Benchmarks

Potential threats to drinking water and water quality continue to be a major concern in many regions of the United States. New Jersey, in particular, has been at the forefront of assessing and managing potential contamination of its drinking water supplies from hazardous substances. The purpose of the current analysis is to provide an up-to-date evaluation of the occurrence and detected concentrations of methyl tertiary butyl ether (MTBE) and several other volatile organic compounds (VOCs) in public water systems, private wells, and ambient groundwater wells in New Jersey based on the best available data, and to put these results into context with federal and state regulatory and human-health benchmarks. Analyses are based on the following three databases that contain water quality monitoring data for New Jersey: Safe Drinking Water Information System (SDWIS), Private Well Testing Act (PWTA), and National Water Information System (NWIS). For public water systems served by groundwater in New Jersey, MTBE was detected at a concentration ≥10 μg/L, ≥20 μg/L, and ≥70 μg/L at least once in 30 (2%), 21 (1.4%), and five (0.3%) of sampled systems from 1997 to 2011, respectively. For private wells in New Jersey, MTBE was detected at a concentration ≥10 μg/L, ≥20 μg/L, and ≥70 μg/L at least once in 385 (0.5%), 183 (0.2%), and 46 (0.05%) of sampled wells from 2001 to 2011, respectively. For ambient groundwater wells in New Jersey, MTBE was detected at a concentration ≥10 μg/L, ≥20 μg/L, and ≥70 μg/L at least once in 14 (2.1%), 9 (1.3%), and 4 (0.6%) of sampled wells from 1993 to 2012, respectively. Average detected concentrations of MTBE, as well as detected concentrations at upper-end percentiles, were less than corresponding benchmarks for all three datasets. The available data show that MTBE is rarely detected in various source waters in New Jersey at a concentration that exceeds the State's health-based drinking water standard or other published benchmarks, and there is no evidence of an increasing trend in the detection frequency of MTBE. Other VOCs, such as tetrachloroethylene (PCE), trichloroethylene (TCE), and benzene, are detected more often above corresponding regulatory or human-health benchmarks due to their higher detected concentrations in water and/or greater toxicity values. The current analysis provides useful data for evaluating the nature and extent of historical and current contamination of water supplies in New Jersey and potential opportunities for public exposures and health risks due to MTBE and other VOCs on a statewide basis. Additional forensic or forecasting analyses are required to identify the sources or timing of releases of individual contaminants at specific locations or to predict potential future water contamination in New Jersey.     

RS-1型含硫有机废气燃烧催化剂

考察了RS-1型催化剂对乙硫醇、丁硫醇、二硫化碳、硫酸二甲酯、乙醇、二甲苯等有机物的氧化活动性。实验结果表明,这种催化剂对乙硫醇等含硫有机物均有较高的氧化活性,且有机硫的氧化产物SO_x不与催化剂发生化学反应。经分析检测,氧化产物SO_x放出率接近100％。在反应温度380℃,空速10000h~(-1),乙硫醇和丁硫醇浓度分别为4000—8000mg/m~3、6000—8000mg/m~3时,净化率≥99％。该催化剂适用于净化制药厂、农药厂等生产排放的含硫废气。