膜分离紫外光度法连续测定二氧化氯的应用

利用 Cl O2 能透过微孔性聚四氟乙烯膜 (PTFE)而制成 Cl O2 连续流动分离装置 ,建立了膜分离紫外光度法连续测定二氧化氯的测试方法。用此方法测定江苏某水厂净水流程线上各采样点的二氧化氯浓度 ,并对测定结果进行显著性检验 ,确定当水中二氧化氯浓度大于或等于 0 .0 8mg/ L时 ,此方法与美国 Vulcan公司推荐的连续碘量法无显著性差异     

Boiling treatment of ABS and PS plastics for flotation separation

A new physical method, namely boiling treatment, was developed to aid flotation separation of acrylonitrile–butadiene–styrene (ABS) and polystyrene (PS) plastics. Boiling treatment was shown to be effective in producing a hydrophilic surface on ABS plastic. Fourier Transform Infrared analysis was conducted to investigate the mechanism of boiling treatment of ABS. Surface rearrangement of polymer may be responsible for surface change of boiling treated ABS, and the selective influence of boiling treatment on the floatability of boiling treated plastics may be attributed to the difference in the molecular mobility of polymer chains. The effects of flotation time, frother concentration and particle size on flotation behavior of simple plastic were investigated. Based on flotation behavior of simple plastic, flotation separation of boiling treatment ABS and PS with different particle sizes was achieved efficiently. The purity of ABS and PS was up to 99.78% and 95.80%, respectively; the recovery of ABS and PS was up to 95.81% and 99.82%, respectively. Boiling treatment promotes the industrial application of plastics flotation and facilitates plastic recycling.     

Reduction–melting combined with a Na2CO3 flux recycling process for lead recovery from cathode ray tube funnel glass

With large quantity of flux (Na₂CO₃), lead can be recovered from the funnel glass of waste cathode-ray tubes via reduction–melting at 1000 °C. To reduce flux cost, a technique to recover added flux from the generated oxide phase is also important in order to recycle the flux recovered from the reduction–melting process. In this study, the phase separation of sodium and the crystallization of water-soluble sodium silicates were induced after the reduction–melting process to enhance the leachability of sodium in the oxide phase and to extract the sodium from the phase for the recovery of Na₂CO₃ as flux. A reductive atmosphere promoted the phase separation and crystallization, and the leachability of sodium from the oxide phase was enhanced. The optimum temperature and treatment time for increasing the leachability were 700 °C and 2 h, respectively. After treatment, more than 90% of the sodium in the oxide phase was extracted in water. NaHCO₃ can be recovered by carbonization of the solution containing sodium ions using carbon dioxide gas, decomposed to Na₂CO₃ at 50 °C and recycled for use in the reduction–melting process.     

Determination of polycyclic aromatic hydrocarbonswith supercritical fluid extractionand chromatography (SFE/SFC )

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纳滤膜在水处理中的应用

综述了纳滤膜的特点 ,包括孔径范围处于纳米级 ,膜体带有电性基团 ,操作压力低 ,对二价和高价离子的截留率明显高于单价离子等。介绍了纳滤膜在水处理中的应用 ,包括软化水处理、饮用水净化、地下水中硝酸盐的去除、二级污水的深度处理、工业废水的处理等。     

磁性吸附剂MZFS吸附偶氮染料中性红的性能及机理

利用正硅酸乙酯水解制备得到"核-壳"结构的磁性吸附剂MZF@SiO₂（MZFS），采用X射线衍射（XRD）、透射电子显微镜（TEM）、振动样品磁强计（VSM）和傅利叶变换红外光谱（FT-IR）对MZFS的结构和性能进行表征，并研究MZFS对偶氮染料中性红（NR）的吸附性能.结果表明，拟二级动力学和Freundlich模型均能较好地描述该吸附过程，吸附过程的速率控制步骤为化学吸附；吸附自由能E为0.472-0.773kJ/mol，△G为-20~0kJ/mol，△H为37.5kJ/mol，表明该过程是以物理吸附为主的自发吸热过程.FT-IR结果表明吸附的主要作用力为分子间氢键，MZFS可采用15% wt H₂O₂进行原位再生.研究结果能为偶氮染料废水处理方法的革新提供基础理论数据.     

Remove volatile organic compounds (VOCs) with membrane separation techniques

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膜分离稀土废水预处理中钙镁去除的研究进展

稀土废水成分复杂,硬度高,利用膜法处理时,进膜之前必须进行预处理.介绍了降低稀土废水硬度传统的和新型的方法.经过分析得出,根据具体水质情况,选择适当的互补处理方法,稀土废水完全可达到膜分离装置进水水质要求.     

氯化十四烷基二甲基苄基铵盐水体系浮选铜

研究发现 ,在水溶液中Cu(Ⅱ )与硫氰酸铵、氯化十四烷基二甲基苄基铵形成不溶于水的三元缔合物 ,在少量氯化钠存在下此三元缔合物沉淀浮于水相上层并与水分成界面清晰的两相 ,分相过程中Cu(Ⅱ )被定量浮选。实现了Cu(Ⅱ )与Fe(Ⅲ )、Ni(Ⅱ )、Mn(Ⅱ )、Al(Ⅲ )等离子的分离 ,是一种无毒且更为简便、经济、快速的分离方法。     

悬浮填料滤池取代传统二沉池的中试研究

研究了一种生物氧化固液分离一体化新工艺,该工艺是在投料倒置AAO工艺好氧池末端设置悬浮填料滤池,从而取消原有工艺的二沉池。在现场与具有二沉池的传统投料倒置AAO工艺的中试对比试验中,滤池表面负荷控制为2.5m3/m2.h(进水量为2.0m3/h),出水SS达到18mg/L,低于同等进水量条件下投料倒置AAO工艺二沉池出水SS值(26mg/L),各项生化指标均满足处理要求。研究表明,新工艺在省却二沉池、节省占地的同时,充分发挥滤池内生物降解作用,达到一级出水水质标准的要求。