紫外-催化湿式过氧化氢氧化煤化工废水膜浓缩液

采用溶胶-凝胶法制备LaCoO3钙钛矿型催化剂用于紫外-催化湿式过氧化氢氧化煤化工废水膜浓缩液,表征了催化剂的结构,并考察了各因素对催化氧化效果的影响。结果表明,当H2O2投加量1.2 mL/L,催化剂投加量0.8 g/L,反应温度120℃,反应压强0.5 MPa,pH=3,反应时间60 min时,COD的去除率为89.7%,TOC的去除率为84.6%,UV254的去除率为97.2%。

颗粒活性炭对水中低浓度过氧化氢的去除效果

紫外-过氧化氢联用(UV/H_(2)O_(2))的高级氧化技术由于其良好的微量有机物污染物去除效果,正逐渐推广应用于供水处理工程的深度处理。然而,该技术使用后一般会产生剩余过氧化氢(H_(2)O_(2)),若不进行有效淬灭会对城市管网和用户健康造成一定影响。颗粒活性炭(GAC)是去除剩余H_(2)O_(2)的一种有效手段,但尚缺乏有效的试验研究和细节探讨。对5种不同性能GAC进行了序批式静态试验,试验结果表明,4种煤质GAC淬灭H_(2)O_(2)符合一级反应动力学模型。进一步探究其吸附动力学和活性炭参数的关系可知,亚甲基兰值、堆重、碘值等参数和反应动力学参数呈一定相关性,但预测能力不佳。另外,动态试验和吸附饱和模拟试验表明,饱和状态下GAC柱对于低浓度(≤4 mg/L)H_(2)O_(2)的去除能力基本不受影响;当浓度较高(>6 mg/L)时,去除能力降低10%~20%。另外,在低浓度淬灭设计工况下,活性炭在深度处理工艺中具有二次利用的可能。

紫外辐射H2O2与PMS氧化准好氧矿化垃圾床渗滤液尾水

采用紫外(UV)活化双氧水(H2O2)和过一硫酸盐(PMS)产生活性氧物种降解准好氧矿化垃圾床渗滤液尾水中有机污染物.结果表明,紫外辐射双氧水(UV-H2O2)和紫外辐射过一硫酸盐(UV-PMS)体系对有机污染物的降解相比于单独体系效果显著.初始pH值和氧化剂投加量能够显著影响2种体系的降解效能,增加氧化剂投加量能够一定程度提高2种体系对渗滤液尾水中有机物的去除;2种体系均在酸性条件下效果较好,初始pH值的升高对2种体系过程有机物降解有抑制作用并且对UV-H2O2体系的抑制尤为显著.在最优条件下(初始pH值为3,氧化剂投量为0.084mol/L),UV-H2O2与UV-PMS体系处理后出水COD去除率分别达到了72.09%和56.22%.另外,UV-H2O2体系中主要活性氧物种是羟基自由基,而UV-PMS体系中主要是由羟基自由基和硫酸根自由基的共同作用.紫外-可见光谱与三维荧光光谱表明两体系中均能降解渗滤液尾水中难降解芳香类有机物质,并且UV-PMS较UV-H2O2体系对腐殖质的反应速率更快,但是两种体系对渗滤液尾水中腐殖质的降解途径存在显著差异.研究结果可为光化学氧化处理垃圾渗滤液中难降解有机物提供参考.

固相萃取—ICP-MS分析西藏咸水湖泊中的微量元素

本研究建立了一种以NOBIAS PA1螯合树脂为富集手段,结合电感耦合等离子体质谱(ICP-MS)测试富含有机碳的咸水湖泊中Mn、Fe、Co、Ni、Cu和Zn的分析方法.该方法首先使用UV/H2O2法对湖泊水体进行消解,去除有机络合作用对Co和Cu的干扰;然后对咸水中的微量元素进行预富集,并使用醋酸铵去除树脂上吸附的盐类;最后使用HNO3洗脱样品并用ICP-MS进行测试.结果表明,在pH值6.35±0.30的情况下,不同微量元素流程空白值为0.49~6.43ng/kg;检出限为0.17~4.55ng/kg;样品的回收率为99%~102%.该方法用于西藏雅根错、色林错、昂仁金错的测试结果显示,该方法加标(内标元素In)回收率>99%;样品(n=3)的相对标准偏差<5%.本方法适用于内陆湖泊尤其是富含有机质的咸水湖泊(包括盐湖)微量元素分析.

UV-Catalytic Treatment of Municipal Solid-Waste Landfill Leachate with Hydrogen Peroxide and Ozone Oxidation

The performance of UV/H_2O_2, UV/O_3, and UV/H_2O_2/O_3 oxidationsystems for the treatment of municipal solid-waste landfill leachatewas investigated. Main objective of the experiment was to removetotal organic carbon (TOC), non-biodegradable organic compounds(NBDOC) and color. In UV/H_2O_2 oxidation experiment, with theincrease of H_2O_2 dosage, removal efficiencies of TOC and coloralong with the ratio of biochemical oxygen demand (BOD) to chemicaloxygen demand (COD) of the effluent were increased and a betterperformance was obtained than the system H_2O_2 alone.

Experimental and model comparisons of H_2O_2 assisted UV photodegradation of Microcystin-LR in simulated drinking water

The degradation of Microcystin-LR (MC-LR) in water by hydrogen peroxide assisted ultraviolet (UV/H2O2) process was investigated in this paper. The UV/H2O2 process appeared to be effective in removal of the MC-LR. MC-LR decomposition was primarily ascribed to production of strong and nonselective oxidant-hydroxyl radicals within the system. The intensity of UV radiation, initial concentration of MC-LR, MC-LR purity, dosages of H2O2, the initial solution pH, and anions present in water, to some extent, influenced the degradation rate of MC-LR. A modified pseudo-first-order kinetic model was developed to predict the removal efficiency under different experimental conditions.