V2O5-WO3/TiO2脱硝催化剂的制备及其性能

对选择性催化还原脱硝用催化剂V2O5-WO3/TiO2的制备工艺进行了实验研究.采用溶胶-凝胶法制得TiO2凝胶,对凝胶进行不同条件下的干燥和煅烧处理,然后通过浸渍法在TiO2上依次负载WO3和V2O5,最终得到V2O5-WO3/TiO2催化剂.结果表明,TiO2凝胶的处理温度对催化剂结构和脱除NO的性能有一定的影响,TiO2凝胶干燥温度为105 ℃时制得的催化剂活性较高,在实验条件下NO脱除率最高可达98.3%.     

磁场对酪氨酸酶活性及其催化降解酚类有机物影响的研究

研究了恒磁场对酪氨酸酶(TYR)活性及其催化降解酚类有机物的影响.结果显示,不同磁场强度(10～350 mT)处理下TYR酶活性均有提高,最佳磁场强度150mT下酶活力提高了27.1%.不同磁化时间下TYR酶活都有上升,但磁化60min后酶活上升幅度有所下降.酶经磁场处理后对温度、pH值稳定性增强,在温度为20～35 ℃、pH为5.0～10.0时均能保持较高活性,最佳温度为25℃,最佳pH为7.0;磁化后TYR酶的Michaelis常数Km为3.83 mmol·L-1,未磁化的Michaelis常数Km为2.65 mmol·L-1.磁场作用可促进TYR对酚类有机物邻苯二酚、苯酚、2,4-二氯酚的转化,反应速度依次递减,磁化处理对邻苯二酚反应的促进作用尤其明显;磁化处理后的酶对不同浓度苯酚和2,4-二氯酚的去除率均明显高于未磁化处理的酶,且随着酶用量增加,酚去除率提高.荧光发射光谱分析表明,磁化酪氨酸酶的荧光强度增强,构像发生了变化.     

复合催化氧化技术对油气田压裂返排液的处理研究

酸化压裂作业废水是石油天然气生产过程中的主要污染源,它的污染成份复杂,有害物质浓度高,特别是含有胍胶和表面活性剂等高分子物质,具有高COD、高稳定度、高粘度的特点.本文通过对压裂液的来源、水质特征、治理现状等常用方法的分析,确定了物理化学脱稳,过滤、O3/H2O2复合催化氧化、深度氧化的达标治理工艺路线.经过处理后的压裂液澄清透明,达到国家二级排放标准(GB8978-96).     

上海市大气气溶胶中铂元素污染状况调查

为调查上海市大气气溶胶中铂元素的污染状况,用PM10-2型可吸入颗粒物采样器采集了上海市大气气溶胶样品,采样时间分别为2003-12～2005-12.用微波消解密闭系统消解样品,电感耦合等离子体质谱法(ICP-MS)测定了大气气溶胶中Pt的含量.分析结果表明,同清洁对照点((0.65±0.16)pg·m-3)相比,上海市中心区大气中Pt((1.69±0.93)pg·m-3)的污染是明显的;装有三元催化转化器的汽车尾气中Pt的含量均在100ng·g-1以上,远远高于大气气溶胶样品(人民广场平均值21.7ng·g-1);不同交通密度区Pt含量分析结果表明,Pt含量与交通密度紧密相关,这说明装有三元催化器的汽车尾气是气溶胶中Pt污染的主要来源;此外,上海市大气气溶胶中Pt呈现季节性变化,并受气象条件影响.同世界其它城市相比,上海市气溶胶中铂元素污染程度还较低,但是这种潜在的重金属污染应该引起重视.     

Synergistic effect of F and triggered oxygen vacancies over F-TiO2 on enhancing NO ozonation

Oxidation-absorption technology is a key step for NO_x removal from low-temperature gas. Under the condition of low O₃ concentration (O₃/NO molar ratio = 0.6), F-TiO₂ (F-TiO₂), which is cheap and environmentally friendly, has been prepared as ozonation catalysts for NO oxidation. Catalytic activity tests performed at 120°C showed that the NO oxidation efficiency of F-TiO₂ samples was higher than that of TiO₂ (about 43.7%), and the NO oxidation efficiency of F-TiO₂-0.15 was the highest, which was 65.3%. Combined with physicochemical characteristics of catalysts and the analysis of active species, it was found that there was a synergistic effect between F sites and oxygen vacancies on F-TiO₂, which could accelerate the transformation of monomolecular O₃ into multi-molecule singlet oxygen (¹O₂), thus promoting the selective oxidation of NO to NO₂. The oxidation reaction of NO on F-TiO₂-0.15 follows the Eley-Rideal mechanism, that is, gaseous NO reacts with adsorbed O₃ and finally form NO₂.     

过氧化氢催化氧化难降解废水的研究

文章以过氧化氢为氧化剂,以γ-Al2O3为载体采用浸渍法制得不同金属含量的九种催化剂进行催化氧化实验,并优选出以5.0%Co、2.5?(质量百分含量)催化剂CODcr去除率较好,并确定此催化剂在常温常压下,反应时间为30 min,pH=6,氧化剂用量为30g/L时,CODcr的去除率最高为83%,这样不仅提高了BOD5/CODcr值,而且有利于后续生化处理,减轻后续处理装置负荷.     

稀土节能荧光灯生产过程中含汞废气处理的实践

用催化吸附 KMnO4溶液吸收化合净化法处理稀土荧光灯生产过程中含汞废气 ,经该工艺处理 ,排放的净化气低于GB162 97 1996《大气污染物综合排放标准》中汞污染物排放标准     

Protozoan colonization on artificial substrates in relation to water quality in a tropical Indian harbour

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不同pH条件下Fe~(2+)/Fe~(3+)/Ni~(2+)/O_3体系对活性艳蓝X-BR的催化氧化

臭氧和催化臭氧氧化法是对印染废水有效的处理手段之一。选取用途较广的活性艳蓝X-BR为研究对象,探讨了氧化过程中染料的降解和结构变化情况。并选取了Fe2+、Fe3+和Ni2+为均相催化剂,讨论了pH对催化效果的影响。实验表明,均相催化体系中,酸性条件下更有利。     

Efficient degradation of organic pollutants by S-NaTaO3/biochar under visible light and the photocatalytic performance of a permonosulfate-based dual-effect catalytic system

Removing large concentrations of organic pollutants from water efficiently and quickly under visible light is essential to developing photocatalytic technology and improving solar energy efficiency. This study used a simple hydrothermal method to prepare a non-metallic, S-doped NaTaO₃ (S-NTO) photocatalyst, which was then loaded onto biochar (BC) to form a S-NTO/BC composite photocatalyst. After uniform loading onto BC, the S-NTO particles transformed from cubic to spherical. The photogenerated electron-hole pair recombination probability of the composite photocatalyst was significantly lower than those of the NTO particles. The light absorption range of the catalyst was effectively widened from 310 nm UV region to visible region. In addition, a dual-effect catalytic system was constructed by introducing peroxymonosulfate (PMS) into the environment of the pollution to be degraded. The Rhodamine B, Methyl Orange, Acid Orange 7, tetracycline, and ciprofloxacin degradation efficiency at 40 mg/L reached 99.6%, 99.2%, 84.5%, 67.1%, and 70.7%, respectively, after irradiation by a 40 W lamps for 90 min. The high-efficiency visible-light catalytic activity of the dual-effect catalytic system was attributed to doping with non-metallic sulfur and loading of catalysts onto BC. The development of this dual-effect catalytic system provides new ideas for quickly and efficiently solving the problem of high-concentration organic pollution in aqueous environments, rationally and fully utilizing solar energy, and expanding the application of photocatalytic technology to practice.