富氧条件下在Ag/Al2O3催化剂上C3H6选择性还原NO

比较富氧条件下,Ｃ₃Ｈ₆ 在溶胶－凝胶和浸渍２种方法制备的Ａｇ／Ａｌ₂Ｏ₃ 催化剂上还原ＮＯ的活性和热稳定性． 结果表明,从活性角度考虑,采用溶胶－凝胶法制备Ａｇ／Ａｌ₂Ｏ₃ 催化剂时,最佳Ａｇ 负载量（ｗｔ）为４％ ～６％ ,其最大活性与浸渍法制备的２％ Ａｇ／Ａｌ₂Ｏ₃ 催化剂相同,而溶胶－凝胶法制备的催化剂有更宽的活性温度范围． 随着焙烧温度提高,溶胶－凝胶法制备的Ａｇ／Ａｌ₂Ｏ₃ 催化剂的比表面和活性下降比浸渍法慢．此外,还考察了气氛中含有ＣＯ对Ａｇ／Ａｌ₂Ｏ₃ 催化剂活性的影响,结果表明活性降低,其原因可能是活性高的氧化态Ａｇ 被ＣＯ部分还原为活性低的还原态Ａｇ．     

钒和钨负载量对V2O5-WO3/TiO2表面形态及催化性能的影响

采用浸渍法制备了一系列不同钒和钨负载量的V₂O₅-WO₃/TiO₂催化剂样品,对样品NH₃选择性催化还原NO性能进行了评价,并用BET、XRD、XPS等手段对催化剂样品的表面形态进行了表征.研究发现,钒的负载量对催化剂的比表面积和催化活性有显著影响,当钒负载量从1％升高到8％时,催化剂比表面积下降了16 m²/g,最高活性温度降低了约100℃.钨起到稳定剂和助剂的双重作用,当钒负载量为1％时,钨负载量从0升高到6％,催化剂比表面积仅下降了3 m²/g,而活性温度窗口向高温和低温各拓宽了约50℃.研究表明钒和钨负载量都能影响催化剂表面的VO_x物种,但对催化剂的表面晶型没有明显影响.     

CuxCe1-xO2/γ-Al2O3催化剂催化燃烧甲苯性能的研究

以γ-Al₂O₃ 为载体,以复合氧化物Cu_xCe_1-xO₂为活性组分,其中,x=0.1,0.2,0.4,0.6,0.8,通过浸渍法制备了一系列Cu_xCe_1-xO₂/γ-Al₂O₃催化剂.在固定床反应器中评价了催化剂对甲苯的催化活性,通过XRD、SEM对催化剂进行表征,并运用ICP-MS分析并计算Cu、Ce的摩尔比以及活性组分的负载量.结果表明,在Cu_xCe_1-xO₂/γ-Al₂O₃催化剂中Cu、Ce摩尔比的实际值与理论值相近,活性组分的负载量在19%以上,而且对甲苯都有较好的低温催化活性,其中当x=0.2时,即Cu_0.2Ce_0.8O₂/γ-Al₂O₃催化剂对甲苯的催化活性最高,其中T₁₀=160 ℃,T₉₀=265 ℃;当甲苯的进口浓度在700~3000 mg·m^-3时,进口浓度对Cu_0.2Ce_0.8O₂/γ-Al₂O₃催化剂的催化活性影响较小,且经过连续80 h的稳定性操作后转化率仍然保持在90%以上.     

Al2O3为载体的催化剂净化贫燃汽车尾气研究

在富氧条件下,考察了C₃H₆和C₂H₅OH在Ag/Al₂O₃、In/Al₂O₃、Sn/Al₂O₃、Co/Al₂O₃、Pt/Al₂O₃和Ag/Al₂O₃+Pt/Al₂O₃组合催化剂上选择性还原NO的性能.结果表明,Ag/Al₂O₃具有最高的NO还原活性.在负载型过渡金属氧化物催化剂上,会生成显著量的CO,其HC和CO氧化转化温度也远远高于Pt/Al₂O₃催化剂.串联组合Ag/Al₂O₃+Pt/Al₂O₃催化剂可显著拓宽活性温度范围,促进HC和CO氧化,降低N₂O和CH₃CHO生成量.     

SO2对Ag/Al2O3催化剂上CH3OH还原NO性能的影响

用溶胶-凝胶混合法制备了Ag负载量为5%的Ag/A1₂O₃催化剂.研究了富氧条件下,SO₂对CH₃OH在催化剂上还原NO性能的影响.结果表明,反应气不含SO₂和H₂O时,NO还原活性温度较低,有显著量N₂O生成,这被归因为反应过程中,部分氧化态Ag被还原为金属Ag.添加SO₂或同时添加SO₂和H_{2相似文献}   

碳负载富氧空位的NiCo2O4用于电催化还原硝酸盐

水体中硝酸盐是一种广泛存在的污染物,因此,开发用于水中硝酸盐还原的高效电催化剂受到广泛关注.采用溶胶-凝胶法耦合硼氢化钠还原法制备了碳负载富氧空位的NiCo₂O_4-x/C电催化剂,并研究其去除硝酸盐的性能.结果发现,在该体系中,耦合导电碳载体可改善半导体型电催化剂导电性,构建氧空位可促使原子H^*生成,最终实现硝酸盐高效还原.NiCo₂O_4-x/C阴极在电流密度为20 mA·cm^-2、pH=7的条件下,可于3 h内去除水中94.8%的NO₃^--N,相较于NiCo₂O₄及NiCo₂O₄/C阴极,NO₃^--N去除率分别提高了36.6%和12.2%.此外,NiCo₂O_4-x/C阴极在连续5次还原硝酸盐过程中性能并未有明显变化.结合掩蔽实验和电子顺磁共振波谱分析证实,NiCo₂O_4-x/C阴极除了可通过直接电子还原硝酸盐外,还可以通过生成原子H^*间接还原硝酸盐.通过对实际废水处理进一步验证其转化硝酸盐的性能,研究表明,NiCo₂O_4-x/C阴极可有效去除焦化废水生物出水中硝酸盐.     

Al2O3催化臭氧化处理邻苯二甲酸二甲酯

'Al₂O₃催化剂对邻苯二甲酸二甲酯(DMP)溶液臭氧化过程的影响结果表明:Al₂O₃可以显著提高臭氧氧化的效果,反应120min后,TOC的去除率从单独臭氧氧化的23.9%提高到55.1%.实验中还考察了制备条件对Al₂O₃催化剂活性的影响并确定了反应的最佳工艺条件.在实验考察的范围内:焙烧温度600℃,Al₂O₃粒径为0.5～1.0mm时催化活性最高;最佳反应工艺条件为:催化剂投加量20g/L,混和气体流速200mL/min,反应温度15℃.通过单独臭氧氧化,单独臭氧氧化后再进行催化剂吸附,催化臭氧化的对比实验证明了Al₂O₃催化剂对体系TOC的去除主要是基于催化作用.     

碳包覆Pd/Al2O3催化剂催化4-溴苯酚加氢脱溴的活性和稳定性调控研究

在污染物液相催化加氢脱卤过程中，提高催化剂的稳定性至关重要.以水热合成法制备了不同碳包覆量的Pd/Al₂O₃@C催化剂，对催化剂进行了系列表征，并将催化剂应用于4-溴苯酚（4-BP）污染物的催化加氢脱溴反应.表征结果显示碳层提高了Pd/Al₂O₃的表面疏水性，有利于4-BP在催化剂上的吸附.并且在Pd/Al₂O₃@C催化剂的碳化过程中，碳还原部分Pd颗粒，并保留部分正价态Pd活性位，增强了4-BP中C-Br键的活化.与Pd/Al₂O₃相比，碳涂层提高了催化剂的催化活性.但当碳包覆量超过最佳包覆量后，暴露的Pd粒子随碳包覆量的增加而减少，导致活性下降.此外，碳层修饰后，催化剂的稳定性显著提高，从而大大抑制了Pd粒子的团聚和损耗.Pd/Al₂O₃@C表面的碳涂层对卤素具有较高的耐受性，从而减轻了液相催化加氢脱卤反应中活性中心的中毒.     

夏季渤海NOx、O3、SO2和CO浓度观测特征

利用2000-08～2000-09渤海海上观测资料,初次揭示了渤海污染物浓度的时间变化特点,分析了光照、天气等因素对NO_x、O₃、SO₂和CO气体浓度的影响.SO₂浓度比较稳定,浓度平均值在0.006 mg·m^-3左右.O₃浓度变化主要受辐射影响.在弱天气形势下,CO和NO_x浓度分别在2.5～3.5 mg·m^-3.和0.1 mg·m^-3左右,台风天气会造成浓度在短时间内的剧烈增长.文中还简要说明了渤海大气污染与陆地污染的差异,评价了渤海夏季的空气质量.     

溴代甲烷在SO42-/TiO2上的光催化降解

采用溶胶-凝胶法制备了SO₄^2-/TiO₂催化剂,运用XRD、BET比表面测定,FTIR等技术对催化剂进行了表征,并在微型常压连续反应装置上进行CH₃Br光催化反应性能考察.结果表明,SO₄^2-引入TiO₂体系使得催化剂的结构和光催化性能得到显著改善.SO₄^2-负载量为9%,烧结温度为450℃时,SO₄^2-/TiO₂催化剂的光催化活性最高;SO₄^2-/TiO₂催化剂对反应物料中的水汽有很好的耐受性;当反应温度低于85℃时,提高反应温度,有利于改善对CH₃Br的光催化反应活性,表观活化能约为19.6kJ·mol^-1,反应温度在85℃～105℃区间时,CH3Br的光催化降解表观活化能为0.     

Pd/CeZr/TiO2/Al2O3蜂窝状金属丝网催化剂选择催化还原NOX

采用溶胶-凝胶法和浸渍法制备了Pd/CeZr/TiO2Al2O3蜂窝状金属丝网催化剂,并将其应用于在富氧条件下以丙烯选择催化还原NOx的研究.利用扫描电镜(SEM)分析了钛酸四丁酯的含量以及涂敷次数对TiO2涂层的影响,系统地考察了Pd含量、氧气浓度和空速对蜂窝状金属丝网催化剂催化性能的影响.实验结果表明,采用钛酸四丁酯的含量为20.0%的溶胶,涂敷2次,可以在金属丝网载体上氧化铝涂层表面获得均匀、无皲裂的TiO2涂层;Pd含量在0.23%～1.06%的范围内, NOx的转化率随Pd含量的增加而减小, Pd含量为0.23%时, NOx表现最高的NOx转化率;反应气体中氧气浓度从1.5%增加到6.0%, NOx的转化率随氧气浓度的增加而增大,当氧气浓度高于6.0%, NOx的转化率则随氧气浓度的增加而迅速减小; NOx的转化率随着空速的增加而降低,在高温条件下空速对转化率的影响要大于在低温条件下.     

V2O5/TiO2催化剂中毒机理的试验研究

选择性催化还原(SCR)催化剂是SCR烟气脱硝技术的核心,是整个SCR系统脱硝效率和经济性的决定因素.本文工作的主要研究思路是以钒钛SCR催化剂为研究对象,研究了H2O和SO2,以及相同含量下K、Na、Ca、Pb的氧化物对钒钛催化剂NO转化率的影响.H2O的存在会抑制V2O5/TiO2催化剂脱硝活性,而SO2在一定程度上促进(V2O5/TiO2)催化剂的SCR脱硝反应,提高NO转化率;碱金属K对钒钛催化剂的钝化作用都是最强,K2O和Na2O的掺入会抑制钒钛催化剂上V2O5的还原能力,而CaO和PbO的掺入对钒钛催化剂上V2O5的还原能力影响较小.     

不同方法制备Co3O4催化剂CO-SCR性能及机制

氮氧化物(NOx)是造成细颗粒物、近地面臭氧等大气污染问题的重要前体物.随着大气污染治理行动的深入,对工业锅炉/窑炉烟气排放的NOx进行控制十分重要.采用不同方法制备了一系列Co_3O_4催化剂,考察了不同制备方法对CO选择性催化还原NO(CO-SCR)反应活性的影响,通过BET、XRD、Raman、HR-TEM和SEM等技术对该系列催化剂进行了表征.活性测试表明,以硫酸钴为前驱体用固态研磨法制备的Co_3O_4-S催化剂具有更优异的CO-SCR反应活性,且表现出较好的抗水蒸气性能,以醋酸钴为前驱体用固态研磨法制备的Co_3O_4-C催化剂显示出较好的抗水性能. NO氧化结果显示,催化剂的NO氧化效果越好,CO-SCR活性也越好. Raman表征结果显示,Co_3O_4-S表面可能含有更多的Co2+离子,从而有利于形成氧空位. H2-TPR结果表明,Co_3O_4-S催化剂的氧化还原性较好. HR-TEM表征发现Co_3O_4-S和Co_3O_4-O主要暴露(111)和(220)晶面,而更多(220)晶面的暴露可能更有利于反应的进行.     

Pt/CeO2催化氧化甲苯反应机制研究

采用浸渍法制备了Pt/CeO_2和Pt/Al2O_3催化剂,并通过XRD、BET、ICP-OES、H2-TPR、XPS等手段表征其物理化学性质.结果发现,Pt/CeO_2和Pt/Al2O_3催化剂上Pt负载量约为0.6%,Al2O_3载体上Pt颗粒尺寸更小,Pt/CeO_2的可还原性更强.甲苯催化氧化活性评价结果表明,Pt/CeO_2催化剂表现出更好的催化活性,T50=170℃,T90=190℃.通过UV-Raman、甲苯TPD、GC/MS、In-situ FTIR等手段进一步研究发现,Pt/CeO_2活化甲苯及反应供氧的机制与Pt/Al2O_3存在区别,其活性更好是因为:(1)负载在CeO_2表面存在高电子密度的Pt原子,具有更强的活化甲苯能力,可以直接使苯基和甲基间的C—C链发生断裂;(2)Pt的负载促进了CeO_2氧空位形成,进一步提高了CeO_2的储氧性能,加速氧循环.除了Pt解离气相氧之外,CeO_2还可以提供活性氧物种参与催化氧化甲苯的反应,进一步提高甲苯催化氧化效率.     

Characterization and performance of Pt/SBA-15 for low-temperature SCR of NO by C3H6

Pt supported on mesoporous silica SBA-15 was investigated as a catalyst for low temperature selective catalytic reduction(SCR) of NO by C 3 H 6 in the presence of excess oxygen.The prepared catalysts were characterized by means of XRD,BET surface area,TEM,NO-TPD,NO/C 3 H 6-TPO,NH 3-TPD,XPS and 27 Al MAS NMR.The effects of Pt loading amount,O 2 /C 3 H 6 concentration,and incorporation of Al into SBA-15 have been studied.It was found that the removal efficiency increased significantly after Pt loading,but an optimal loading amount was observed.In particular,under an atmosphere of 150 ppm NO,150 ppm C 3 H 6,and 18 vol.% O 2,0.5% Pt/SBA-15 showed remarkably high catalytic performance giving 80.1% NOx reduction and 87.04% C 3 H 6 conversion simultaneously at 140°C.The enhanced SCR activity of Pt/SBA-15 is associated with its outstanding oxidation activities of NO to NO 2 and C 3 H 6 to CO 2 in low temperature range.The research results also suggested that higher concentration of O 2 and higher concentration of C 3 H 6 favored NO removal.The incorporation of Al into SBA-15 improved catalytic performance,which could be ascribed to the enhancement of catalyst surface acidity caused by tetrahedrally coordinated AlO 4.Moreover,the catalysts could be easily reused and possessed good stability.     

Effect of CeO2 and Al2O3 on the activity of Pd/Co_3O_4/cordierite catalyst in the three-way catalysis reactions (CO/NO/CnHm)

The present article studies the effect of CeO₂ and Al₂O₃ on the activity of Pd/Co₃O₄/cordierite catalyst in conversion of NO, CO, C_nH_m. The catalysts were characterized by temperature programmed reduction with hydrogen, X-ray diffraction, X-ray photoelectron spectroscopy and transmission electron microscopy. It is shown that the effect of CeO₂ on the properties of Pd/Co₃O₄/cordierite catalyst depends on preparation method. The catalyst obtained by co-deposition of cerium and cobalt oxides has higher activity in CO oxidation (CO + O₂ and CO + NO) and total hexane oxidation (C₆H₁₄ + O₂). Such phenomenon is probably caused by more than stoichiometric amount of formed oxygen vacancies, an increase in both mobility of surface oxygen and dispersity of components in the catalytic composition. It is demonstrated that CeO₂ addition promotes the SO₂ resistance of Pd/Co₃O₄/cordierite. The second support decreases the activity of Pd/Co₃O₄/cordierite catalyst in the reactions of CO and C₆H₁₄ with oxygen because of CoAl₂O₄ formation.     

Effect of MoO3 on vanadium based catalysts for the selective catalytic reduction of NOx with NH3 at low temperature

The selective catalytic reduction(SCR) activities of the MoO_3 doped V/WTi catalysts prepared by the incipient wetness impregnation method at low temperature were investigated.The results showed that the addition of MoO_3 could enhance the NO_ xconversion at low temperature and the best SCR activity was obtained when the dosage of MoO_3 reached5 wt.%. The NH3-TPD and DRIFTS experiments indicated that the addition of MoO_3 changed the type and number of acid sites on the surface of catalysts and reaction activities of acid sites were altered at the same time. The redox capacity and amount of active oxygen species got improved for V3Mo5/WTi catalyst, which could be confirmed by the H_2-TPR and transient response experiments. Water vapor inhibited the NO_xconversion at low temperature. Deposition of ammonium sulfate or bisulfate might be main reason for the loss of catalytic activity in the presence of SO_2 at low temperature. Choosing the suitable NH_3/NO ratio and elevation of reaction temperature both could weaken the influence of SO_2 on the SCR activity of the V3Mo5/WTi catalyst. Thermal treatment of the deactivated catalyst at350°C could get the low temperature activity recovered. The decrease of GHSV improved the de NO_x efficiency at low temperature and we speculated that the rational technological process and operation parameters could contribute to the application of this kind of catalysts in real industrial environment.     

Cu-Al2O3中骨架铜类芬顿催化去除水中有机污染物

为解决传统铁基芬顿催化剂在水体通常酸碱(pH6)条件下活性低的问题,采用简单共沉淀法制备了Cu掺杂的Al_2O_3类芬顿催化剂.通过X射线衍射(XRD)、X射线光电子能谱(XPS)和紫外可见(UV-vis)吸收光谱分析表明,Cu-Al_2O_3中铜掺杂的质量分数低于4.77%时,催化剂中铜主要以Cu~(2+)和Cu~+的形式共存于Al_2O_3的骨架结构中,形成Al—O—Cu键;过量的铜掺杂会导致外骨架铜物种如铜氧化物团簇的存在.以难降解有机污染物2-氯苯酚(2-chlorophenol,2-CP)和染料罗丹明B(Rhodamine B,Rh B)为目标污染物,对Cu-Al_2O_3的类芬顿催化性能进行了详细地研究.结果表明,骨架铜物种在中性温和条件下对2-CP和Rh B显示出很高的催化去除效率和稳定性,反应2 h,Cu-Al_2O_3(Cu质量分数4.77%)对2-CP的去除率达到54%,相应的TOC去除率达到49%,而铜离子溶出浓度仅为0.025 5 mg·L-1,而Cu-Al_2O_3(Cu质量分数7.58%)由于外骨架铜的存在导致催化活性增加缓慢和稳定性下降.ESR测试结果表明,·OH和HO_2~-/O_2~-·是反应中主要的活性物种.     

A comparative study of Mn/CeO2, Mn/ZrO2 and Mn/Ce-ZrO2 for low temperature selective catalytic reduction of NO with NH3 in the presence of SO2 and H2O

Ce-ZrO2 is a widely used three-way catalyst support.Because of the large surface area and excellent redox quality,Ce-ZrO2 may have potential application in selective catalytic reduction(SCR) systems.In the present work,Ce-ZrO2 was introduced into a low-temperature SCR system and CeO2 and ZrO2 supports were also introduced to make a contrastive study.Mn/CeO2,Mn/ZrO2 and Mn/Ce-ZrO2 were prepared by impregnating these supports with Mn(NO3)2 solution,and have been characterized by N2-BET,XRD,TPR,TPD,XPS,FT-IR and TG.The activity and resistance to SO2 and H2O of the catalysts were investigated.Mn/Ce-ZrO2 and Mn/CeO2 were proved to have better low-temperature activities than Mn/ZrO2,and yielded 98.6% and 96.8% NO conversion at 180°C,respectively.This is mainly because Mn/Ce-ZrO2 and Mn/CeO2 had higher dispersion of manganese oxides,better redox properties and more weakly adsorbed oxygen species than Mn/ZrO2.In addition,Mn/Ce-ZrO2 showed a good resistance to SO2 and H2O and presented 87.1% NO conversion,even under SO2 and H2O treatment for 6 hours,and the activity of Mn/Ce-ZrO2 was almost restored to its original level after cutting off the injection of SO2 and H2O.This was due to the weak water absorption and weak sulfation process on the surface of the catalyst.