焙烧条件对Ru/AC催化剂去除溴酸盐的影响

考察了以RuCl₃·3H₂O为前驱物,以AC(颗粒活性炭)为载体制备Ru/AC时,焙烧氛围、焙烧温度、焙烧时间对Ru/AC催化活性的影响,并利用XPS(X-ray photoelectron spectra,X射线光电子能谱分析)、BET(brunner-emmet-teller method,比表面积测定)和SEM(scanning electronic microscopy,扫描电镜)等手段对样品进行了表征. 结果表明,不同焙烧氛围中制备的Ru/AC活性有较大差异:在N₂焙烧氛围中,容易形成去除BrO₃-的有效活性组分(RuO₂);而在真空焙烧氛围中,几乎没有活性组分的产生;在H₂-N₂〔φ(H₂)为1.5%,φ(N₂)为98.5%〕氛围中焙烧,负载在AC上的活性组分有Ru₀(单质钌)和RuO₂. 焙烧温度对Ru/AC去除BrO₃-的性能有着较为显著的影响,高温有利于AC的石墨化进程,载体性能得到优化;但焙烧温度过高(1 000 ℃)时,会产生金属颗粒团聚现象;最适宜的焙烧温度为900 ℃. Ru/AC的活性随着焙烧时间的延长呈先增后降的趋势;焙烧时间为3 h时,载体的比表面积和孔容积得到提高且有效活性组分能够均匀地分散在AC载体上. 综上,Ru/AC催化剂的最优焙烧条件:焙烧氛围为N₂,焙烧温度为900 ℃,焙烧时间为3 h. 在该条件下制备的Ru/AC利于形成去除BrO₃-的活性物质RuO₂,并且其能够均匀地分布在AC载体上,使催化反应进行得更为彻底,可在2 h内将BrO₃-全部去除.      

Statistical modeling of radiolytic (60Co g) degradation of Ofloxacin,antibiotic: Synergetic effect,kinetic studies & assessment of its degraded metabolites

Linear, interactive and quadratic effects of process parameters were studied. Degradation of Ofloxacin (Ofx) was related with G value of irradiation process. The synergistic effect of H₂O₂ on lower dose of g-irradiation was established. The process follows pseudo first order with dose constant (d = 0.232 kGy^–1). The impact of human activities in the past few decades has paved the way for the release of pollutants due to the improper effluent treatment. Recent studies revealed that, Ofloxacin, an antibiotic as one of the major pollutant affecting surface water and ground water. In this study, the radiolytic potential of Ofloxacin was investigated. The effects of pH, dose and concentration of Ofloxacin were analyzed using One Factor At a Time (OFAT) and the interactive effects between the parameters were studied using Face Centered Central Composite Design. The statistically optimised developed model shows 30% degradation at initial antibiotic concentration of 1mM at pH 3.0 and at 2 kGy dose of gamma ray. The process efficiency was evaluated in terms of G value and its correlation with the concentration of antibiotic was also established. The process of degradation was augmented by the addition of H₂O₂ (1.5 mM). The reaction kinetics for the process was evaluated, the dose rate constant and the rate of degradation for the augmented process was found to be 0.232 kGy^-1 and 0.232 mM/kGy, respectively. The degraded metabolites of the radiolytic degradation of Ofloxacin were analyzed through change in pH, reduction in TOC and GC-MS spectrum.     

可燃气体检测仪的校正系数及其应用

可燃气体检测仪广泛应用于石化、煤矿等危险场所的气体检测。校正系数是影响仪器正确使用的重要因素。论述了校正系数既相似又不同的原因,阐述了合理选择校正气体的原则,分析了校正系数对测量结果的影响,总结了目前气体检测仪器生产及使用存在的问题,并提出了解决建议。     

有机酸在金属氧化物上的吸附对催化臭氧氧化的影响

以苯甲酸(BA)、邻苯二甲酸(PA)、商品腐殖酸(CHA)和反渗透法提取的松花江水腐殖酸(SHA)为目标物,研究了臭氧氧化及羟基氧化铁(FeOOH)和二氧化铈(CeO₂)为催化剂时的吸附与催化臭氧氧化去除这些有机物的效果.结果表明,BA在FeOOH表面没有吸附,FeOOH对BA催化氧化的去除率比臭氧单独氧化高45%;PA在FeOOH上的吸附使其溶液中的浓度减少了5%,此时FeOOH对PA的氧化没有催化作用.CeO₂有助于催化臭氧氧化在其表面吸附较强的PA,且对氧化产生的草酸根有催化去除作用,但对不吸附在其表面的BA没有催化臭氧氧化作用.CeO₂对腐殖酸的吸附比FeOOH强,其催化臭氧氧化去除腐殖酸的作用比FeOOH更显著;当无机阴离子和腐殖酸竞争金属氧化物表面的吸附位时,催化作用受到抑制.     

絮凝--催化氧化法处理造纸中段废水

以聚合氯化铝（PAC）为絮凝剂,Fe^2＋／H2O2（Fenton试剂）为催化／氧化剂,采用絮凝-催化氧化法处理造纸中段废水。探讨了影响COD去除率的各种因素,确定了最佳的絮凝和催化氧化条件。研究结果表明：该法可使原水COD从1728mg／L降至52mg／L,废水COD与色度的去除率分别可达97．0％与98．5％,出水清澈透明,可以回收利用,为造纸废水的处理提供了新的技术方案。     

Promotional effect of ion-exchanged K on the low-temperature hydrothermal stability of Cu/SAPO-34 and its synergic application with Fe/Beta catalysts

• K⁺ hinder the structural degradation of Cu/SAPO-34 under humid condition<100°C. • K⁺ on Cu/SAPO-34 brings lower acidity and inferior SCR activity at high temperature. • Fe/Beta was used to compensate the low activity of Cu/SAPO-34 at high temperature. • The hybrid catalysts with KCu/SAPO-34 and Fe/Beta show a great potential for using. K ions were introduced onto Cu/SAPO-34 catalysts via the ion-exchange process in order to improve their stability under low-temperature hydrothermal aging. The changes in structure and copper-species contents of these catalysts upon hydrothermal aging were probed in order to investigate their effects on selective catalytic reduction (SCR) activity. For the fresh Cu/SAPO-34 catalysts, K ions had little influence on the chabazite framework but effected their acidities by exchanging with acid sites. After hydrothermal aging, the structural integrity and amount of active sites decreased on pure Cu/SAPO-34. While the K-loaded catalysts showed improved chabazite structure, acidity, and active site conservation with increasing K loading. However, although the 0.7 wt% K catalyst maintained the same crystallinity, active site abundance, and low-temperature SCR activity as the fresh catalyst upon aging, an apparent decrease in SCR activity at high temperature was observed because of the inevitable decrease in the number of Brönsted acid sites. To compensate for the activity disadvantage of K-loaded Cu/SAPO-34 at high temperature, Fe/Beta catalysts were co-employed with K-loaded Cu/SAPO-34, and a wide active temperature window of SCR activity was obtained. Thus, our study reveals that a combined system comprising Fe/Beta and K-loaded Cu/SAPO-34 catalysts shows promise for the elimination of NO_x in real-world applications.     

CDPF对重型柴油车颗粒物排放特性的影响

采用实验室底盘测功机和全流定容稀释采样系统（CVS）,搭载EEPS3090,开展了国三重型柴油车加装催化型颗粒物捕集器（CDPF）前后颗粒物排放因子和粒径分布比较,进一步分析了不同工况下CDPF对各模态颗粒物排放因子的影响.结果表明,重型柴油车加装CDPF前后基于单位里程的颗粒物数量排放因子分别为（2.7±1.1）×10¹⁵ km^-1和7.9×10¹⁴ km^-1,CDPF对颗粒物数量减排率为71.10%,其中对核模态和聚集态颗粒物数量减排率分别为28.70%和84.95%.随着车速的增加,CDPF对聚集态颗粒物数量减排效果良好,核模态颗粒物数量减排率急剧下降.高速工况下颗粒物在CDPF内部出现大粒径颗粒物向小粒径颗粒物转化的现象,导致核模态颗粒物数量排放因子的增加,应引起足够的重视.     

改性钒基整体式催化剂的制备及其对燃煤烟气中甲苯与一氧化氮的同步去除性能

采用工业上简易可行的单组分浸渍法和多组分浸渍法制备了一系列Cu/Fe/Mo改性的钒钛基整体式催化剂,考察了不同整体式催化剂制备工艺及浸渍液浓度对催化剂在模拟燃煤烟气中对甲苯和NO同步去除的性能,并优选出适应燃煤烟气的改性催化剂制备工艺及配方.结果表明,使用单组分浸渍法制备的浸渍液浓度为0.5%的Fe改性钒钛基整体式催化剂具有最优的活性和选择性,在350℃下对甲苯和NO的转化率分别达到99%和94.9%,对CO_x和N₂的选择性分别为88%和96.4%,XRD和SEM-EDS-Mapping结果表明,改性组分（Cu/Fe/Mo）均匀分散在钒基整体式催化剂表面,Fe改性材料具有最大的比表面积和孔容,因而可提高甲苯和NO的同步脱除性能.     

铁钛共掺杂氧化铝诱发表面双反应中心催化臭氧化去除水中污染物

多相催化臭氧化技术因能有效去除水中有机污染物而受到广泛关注.然而,基于单一位点氧化还原的金属氧化物催化臭氧化过程存在速率限制步骤,使活性受到抑制,极大地限制了多相催化臭氧化技术的实际应用.为解决这一瓶颈,以过渡金属物种Fe和Ti对金属氧化物γ-Al₂O₃基底进行晶格掺杂制备出新型双反应中心催化剂FT-A-1 DRCs.通过XRD、TEM和XPS等技术对其形貌结构和化学组成进行了表征分析,证明Fe和Ti对于Al的晶格取代,形成表面贫富电子微区（富电子Fe微中心和缺电子Ti微中心）.FT-A-1 DRCs被用于催化臭氧化过程,对布洛芬等一系列难降解有机污染物的去除表现出优异的活性和稳定性.利用EPR和电化学技术揭示了界面反应机制.发现在催化臭氧化过程中,O₃/H₂O在富电子微中心被定向还原产生·OH,而污染物可在缺电子微中心作为电子供体而被氧化,为反应体系持续提供电子.这一反应过程利用污染物自身的能量实现了污染物的双途径降解（·OH攻击和直接电子供体）,突破了金属氧化物催化臭氧化过程存在速率限制步骤.     

锰-稀土/Y分子筛复合电催化处理含酚模拟废水

采用浸渍焙烧法制备了以Y分子筛为载体的Mn-RE复合催化剂,置于电解槽内形成反应床体,构建Mn-RE多相催化电解氧化体系处理人工模拟苯酚废水.考察了浸渍液中锰的质量分数、稀土元素组成和质量分数、焙烧温度、焙烧时间对电催化活性的影响,用SEM和XRD等手段对催化剂的微观结构、表面形貌进行了表征,探讨了Mn-RE/Y分子筛催化剂对含酚废水降解的电催化效果.研究表明, Mn-RE/Y分子筛催化剂的最佳制备条件是浸渍液中锰质量分数6%,铈质量分数为3%,焙烧温度为550℃,焙烧时间为5h.Y分子筛中引入Mn、Ce后没有破坏Y分子筛的晶体结构, Mn-RE/Y分子筛催化剂的表面并没有检测到稀土氧化物和锰氧化物的物相.反应过程中, Mn-RE/Y分子筛在阴极和阳极的同时催化氧化作用强化了含酚废水的降解效果.