Modification of CeO2-ZrO2 catalyst by potassium for NOx-assisted soot oxidation

Potassium-modified ceria-zirconia catalyst was synthesized by wetness impregnation method.The ageing treatment was performed in static air at 800°C for 20 hr to evaluate the thermal stability of the catalyst.The catalysts were characterized by X-ray diffraction,BET surface area,oxygen storage capacity,NOx-temperature programmed desorption and soot-temperature programmed oxidation measurements.By introduction of potassium,the maximum soot oxidation rate temperature(Tm) of the ceria-zirconia based catalyst de...     

Modification of Ce02-ZrO2 catalyst by potassium for NOx-assisted soot oxidation

Potassium-modified ceria-zirconia catalyst was synthesized by wetness impregnation method. The ageing treatment was performed in static air at 800℃ for 20 hr to evaluate the thermal stability of the catalyst. The catalysts were characterized by X-ray diffraction,BET surface area, oxygen storage capacity, NOx-temperature programmed desorption and soot-temperature programmed oxidation measurements. By introduction of potassium, the maximum soot oxidation rate temperature (Tm) of the ceria-zirconia based catalyst decreased from 525 to 428℃ in the presence of NO under a loose contact mode. The shift of Tm of the K-modified catalyst after ageing is only 15℃. The enhanced activity of the aged catalyst mainly lies in the promotional effect of potassium on the NOx/oxygen storage cacity as well as the soot-catalyst contact.     

Oxidation of diesel soot on binary oxide CuCr(Co)-based monoliths

Binary oxide systems(Cu Cr2O4, Cu Co2O4), deposited onto cordierite monoliths of honeycomb structure with a second support(finely dispersed Al2O3), were prepared as filters for catalytic combustion of diesel soot using internal combustion engine’s gas exhausts(O2, NOx, H2 O, CO2) and O3 as oxidizing agents. It is shown that the second support increases soot capacity of aforementioned filters, and causes dispersion of the particles of spinel phases as active components enhancing thereby catalyst activity and selectivity of soot combustion to CO2. Oxidants used can be arranged with reference to decreasing their activity in a following series: O3 NO2> H2 O > NO > O2> CO2. Ozone proved to be the most efficient oxidizing agent: the diesel soot combustion by O3 occurs intensively(in the presence of copper chromite based catalyst) even at closing to ambient temperatures.Results obtained give a basis for the conclusion that using a catalytic coating on soot filters in the form of aforementioned binary oxide systems and ozone as the initiator of the oxidation processes is a promising approach in solving the problem of comprehensive purification of automotive exhaust gases at relatively low temperatures, known as the "cold start" problem.     

Simultaneous catalytic removal of NOx and diesel soot particulate over perovskite-type oxides and supported Ag catalysts

A series of perovskite-type oxides and supported Ag catalysts were prepared,and characterized by X-ray diffraction (CRD)and x-ray photoelectron spectroscopy(XPS).The catalytic activities of the catalysts as well as influencing factors on catalytic activity have been investigated for the simultaneous removal of NOx and diesel soot particulate.An increase in catalytic activity for the selective reduction of NOx was observed with Ag addition in these perovskite oxides,especially with 5% Ag loading.This catalyst could be a promising candidate of catalytic material for the simultaneous elimination of NOx and diesel soot.     

复合氧化物催化材料上碳颗粒物的催化燃烧

针对柴油车排放碳颗粒物的控制 ,研制可应用于柴油车排放碳颗粒物催化再生复合氧化物催化材料 .通过运用热分析仪 (TGA)和程序升温氧化反应装置 (TPO)对复合氧化物催化材料的活性进行评价 ,研究了催化材料的组成、原子配比、催化材料与碳颗粒物质量比、H₂O的加入、焙烧温度对催化活性的影响 .实验结果表明 :双组分金属氧化物催化剂中 ,Cu-Mo-O有较好的活性 ;多组分金属氧化物催化剂中 ,Cu-K-Mo-O在原子比Cu∶K∶Mo =1∶1∶2 ,催化剂与碳颗粒物质量比为 5∶1时活性最好 ,其碳颗粒物起燃温度为 32.7℃ ,同时H₂O和焙烧温度对该催化剂的影响较小 ,是能够应用于柴油车排放碳颗粒物控制催化再生的良好催化材料 .     

金属氧化物催化剂上吡啶催化燃烧

为了研究催化燃烧法净化挥发性有污染物的可能性,考察了金属氧化物催化剂上吡啶的氧化活性及氧化过程ＮＯｘ控制能力,吡啶氧化产物ＮＯｘ随反应温度升高呈现极大值。催化剂的氧化活性ＮＯｘ控制能力呈正比关系。     

Iron-doped Mn-Ce/TiO2 catalyst for low temperature selective catalytic reduction of NO with NH3

The catalysts of iron-doped Mn-Ce/TiO 2(Fe-Mn-Ce/TiO 2) prepared by sol-gel method were investigated for low temperature selective catalytic reduction(SCR) of NO with NH 3.It was found that the NO conversion over Fe-Mn-Ce/TiO 2 was obviously improved after iron doping compared with that over Mn-Ce/TiO 2.Fe-Mn-Ce/TiO 2 with the molar ratio of Fe/Ti = 0.1 exhibited the highest activity.The results showed that 96.8% NO conversion was obtained over Fe(0.1)-Mn-Ce/TiO 2 at 180°C at a space velocity of 50,000 hr 1.Fe-Mn-Ce/TiO 2 exhibited much higher resistance to H 2 O and SO 2 than that of Mn-Ce/TiO 2.The properties of the catalysts were characterized using X-ray diffraction(XRD),N 2 adsorption,temperature programmed desorption(NH 3-TPD and NOx-TPD),and Xray photoelectron spectroscopy(XPS) techniques.BET,NH3-TPD and NOx-TPD results showed that the specific surface area and NH3 and NOx adsorption capacity of the catalysts increased with iron doping.It was known from XPS analysis that iron valence state on the surface of the catalysts were in Fe3+ state.The doping of iron enhanced the dispersion and oxidation state of Mn and Ce on the surface of the catalysts.The oxygen concentrations on the surface of the catalysts were found to increase after iron doping.Fe-Mn-Ce/TiO2 represented a promising catalyst for low temperature SCR of NO with NH3 in the presence of H2 O and SO2.     

氮掺杂二氧化钛负载钒磷氧催化氧化NO的实验研究

以VPO为活性组分,N掺杂TiO 2为载体,采用浸渍法制备了VPO/TiN催化剂,基于单因素实验研究了其对NO的选择性催化氧化(SCO)性能以及抗硫抗水性能。研究表明:当P/V为1/5、N/Ti为1、活性组分负载量为10%、焙烧温度为350℃时,催化剂的SCO活性最好,NO氧化率达到61%;光致发光光谱(PL)表征显示N掺杂TiO 2在催化剂表面形成的氧空位可增强催化剂对O 2的吸附;VPO/TiN催化剂抗硫抗水性能较强,反应后的催化剂表面未发现硫酸根的特征峰,水蒸气主要通过与NO竞争吸附占据活性位点来抑制催化剂的SCO活性。     

选择性催化氧化NO的催化剂研究进展

工业生产过程产生的NO对大气环境造成严重污染。选择性催化氧化吸收法（SCO）脱硝是目前较有价值的脱硝技术。选择性催化氧化的关键在于催化剂的选择。目前,用于NO催化氧化的催化剂主要有活性炭类、分子筛类、贵金属类、过渡金属氧化物类催化剂。其中,过渡金属氧化物类催化剂具有良好的催化活性,价格低廉,制作简单等,是目前较有研究前景的催化剂。目前,关于SCO各类催化剂脱硝机理的研究,常温下经济实用且氧化、稳定、抗毒性能优良的催化剂的制备,以及催化氧化工业废气工艺的探索是脱硝催化剂未来的发展方向。     

V-W/TiO_2/γ-Al_2O_3催化剂催化还原NO的研究

掺杂15%TiO2对γ-Al2O3改性制备了TiO2/γ-Al2O3复合氧化物载体,以此复合氧化物及TiO2、γ-Al2O3为载体用浸渍法负载钒钨制备了一系列催化剂,采用比表面积和孔结构分析、X射线衍射(XRD)、高分辨电镜(HRTEM)、原位红外(in situ FT-IR)等技术对载体和催化剂进行宏观-微观表征,同时在模拟氨气选择性催化还原NO(NH3-SCR)的反应条件下对催化剂的脱硝反应活性进行考察,比较研究TiO2掺杂对V2O5-WO3/TiO2和V2O5-WO3/γ-Al2O3催化剂的改性作用。结果发现,少量TiO2掺杂制得的TiO2/γ-Al2O3复合载体中,TiO2和γ-Al2O3之间的协同作用使得V2O5-WO3/TiO2/γ-Al2O3催化剂的选择性催化还原脱硝效率及活性窗口明显优于单一载体制备的催化剂,并表现出了良好的热稳定性;各种表征结果表明,TiO2/γ-Al2O3复合载体中TiO2高度分散在γ-Al2O3上,复合载体具有较大的比表面积,载体表面存在大量的Br?nsted酸位和较多的活性中间产物,这些可能是TiO2/γ-Al2O3复合载体催化剂具有较好SCR活性的原因。     

NH3-SCR performance and the resistance to SO2 for Nb doped vanadium based catalyst at low temperatures

Niobium oxide as the promoter was doped in the V/WTi catalyst for the selective catalytic reduction(SCR)of NO.The results showed that the addition of Nb_2O_5could improve the SCR activity at low temperatures and the 6 wt.%additive was an appropriate dosage.The enhanced reaction activity of adsorbed ammonia species and the improved dispersion of vanadium oxide might be the reasons for the elevation of SCR activity at low temperatures.The resistances to SO_2of 3V6Nb/WTi catalyst at different temperatures were investigated.FTIR spectrum and TG-FTIR result indicated that the deposition of ammonium sulfate species was the main deactivation reason at low temperatures,which still exhibited the reactivity with NO above 200°C on the catalyst surface.There was a synergistic effect among NH_3,H_2O and SO_2that NH_3and H_2O both accelerated the catalyst deactivation in the presence of SO_2at 175°C.The thermal treatment at 400°C could regenerate the deactivated catalyst and get SCR activity recovered.The particle and monolith catalysts both kept stable NO_xconversion at 225°C with high concentration of H_2O and SO_2during the long time tests.     

Fe-MnOx-CeO2/ZrO2低温催化还原NO性能研究

以纳米ZrO2为载体,用浸渍法制备出Fe-MnOx-CeO2/ZrO2催化剂,考察了活性组分配比和助剂负载量对催化剂低温NH3选择性催化还原NO活性的影响,并对催化剂进行了XRD、SEM、EDS和BET表征;探讨了温度、H2O和SO2对Fe-MnOx-CeO2/ZrO2催化剂低温下NH3选择性催化还原NO的影响,结果表明,无SO2和H2O条件下,8%Fe-10%MnOx-CeO2/ZrO2催化剂具有良好的催化活性和稳定性.120℃时,催化剂的脱硝效率为85.23%,当温度升至180℃时,脱硝效率可达到92.0%.SO2和H2O共存条件下,催化剂易失活,采用傅立叶变换红外光谱对各反应阶段的催化剂进行了表征,对其失活机制进行深入研究,结果表明,催化剂失活的主要原因是催化剂表面硫酸铵盐的沉积和催化剂本身活性成分的硫酸盐化.     

Catalytic evaluation of promoted CeO2-ZrO2 by transition, alkali, and alkaline-earth metal oxides for diesel soot oxidation

Series of mixed metal oxides were synthesized by gel-combustion method and their catalytic activities for soot oxidation were investigated. The catalysts were M-Ce-Zr （M = Mn, Cu, Fe, K, Ba, Sr）, and χK-20Mn-Ce-Zr （χ= 0, 5, 10, 20）, they were characterized by XRD, SEM, TPR and BET surface area techniques. The results of soot temperature programmed oxidation （TPO） in an O2 oxidizing atmosphere indicate that K-Ce-Zr has the highest catalytic activity for soot oxidation under loose contact condition, due to enhancement of the soot and catalyst contacts. On the other hand, under a tight contact condition, Mn-Ce-Zr and Cu-Ce-Zr nano-composites have high activities for soot oxidation and lower the soot TPO peak temperatures by about 280 and 270℃, respectively, as compared to non-catalytic soot oxidation. Furthermore, the addition of up to 10 wt.% potassium oxides into Mn-Ce-Zr increases its catalytic activity and further reduces the soot TPO peak temperature by about 40℃ under loose contact condition.     

Toluene decomposition performance and NOx by-product formation during a DBD-catalyst process

Characteristics of toluene decomposition and formation of nitrogen oxide(NOx) by-products were investigated in a dielectric barrier discharge(DBD) reactor with/without catalyst at room temperature and atmospheric pressure. Four kinds of metal oxides, i.e., manganese oxide(Mn Ox), iron oxide(Fe Ox), cobalt oxide(Co Ox) and copper oxide(Cu O), supported on Al2O3/nickel foam, were used as catalysts. It was found that introducing catalysts could improve toluene removal efficiency, promote decomposition of by-product ozone and enhance CO2 selectivity. In addition, NOx was suppressed with the decrease of specific energy density(SED) and the increase of humidity, gas flow rate and toluene concentration, or catalyst introduction. Among the four kinds of catalysts, the Cu O catalyst showed the best performance in NOx suppression. The Mn Ox catalyst exhibited the lowest concentration of O3 and highest CO2 selectivity but the highest concentration of NOx. A possible pathway for NOx production in DBD was discussed. The contributions of oxygen active species and hydroxyl radicals are dominant in NOx suppression.     

Size effect of Pt nanoparticles in acid-assisted soot oxidation in the presence of NO

Pt/Al₂O₃ catalysts with mean Pt particle size ranged from 2.7 to 7.1 nm were synthesized by chemical reduction method, and the sulfated counterparts were prepared by impregnation of sulfuric acid. The turnover frequency of platinum for soot oxidation under loose contact conditions in a feed flow containing NO and O₂ are positively correlated with the size of platinum. The sulfated Pt/Al₂O₃ exhibits higher catalytic activity for soot oxidation in the presence of NO despite their reduced ability for NO₂ production. Such a contradiction is more significant for those catalysts with smaller platinum particles. Herein, the catalysts were characterized by X-ray diffraction (XRD), Brunauer-Emmett-Teller (BET), transmission electron microscopy (TEM), inductive coupled plasma (ICP) emission spectrometry, CO chemisorption, thermogravimetric analysis (TGA), NH₃ temperature-programmed desorption (NH₃-TPD), NO temperature-programmed oxidation (TPO) and NO_x temperature-programmed desorption (TPD). Possible effect of Pt particle size for the catalytic oxidation of soot in the presence of NO was presented based primarily on the promoted NO₂ transfer efficiency onto the soot pushed by the acidic catalysts.     

La-Na-Co-Mn-O系钙钛矿型催化剂同时去除柴油机碳颗粒和NO_x性能的研究

采用低温燃烧法制备了Na+部分取代La3+的La1-xNaxCo0.5Mn0.5O3系钙钛矿型复合氧化物催化剂。利用程序升温反应(TPR)技术,对催化剂应用于柴油机常规排放物中的碳微粒(soot)和氮氧化合物(NOx)的同时催化脱除性能进行了研究。     

La1-xKxMnO3催化剂同时消除柴油机尾气中NO和碳烟性能

采用溶剂热法制备La_1-xK_xMnO₃(x=0, 0.10, 0.15, 0.20, 0.25)钙钛矿型复合金属氧化物催化剂;通过XRD、FT-IR、SEM、H₂-TPR、XPS、NO-TPD等手段对催化剂的物相组成、表面形貌、氧化还原性能等进行了表征;在常压固定床微型反应装置中评价催化剂同时消除NO和碳烟催化性能.结果表明,制备的La_1-xK_xMnO₃催化剂均具有钙钛矿结构;K部分取代La-Mn钙钛矿结构中La后,颗粒结构得以改善,部分Mn³⁺价态升高为Mn⁴⁺,形成较多氧空位和Mn⁴⁺,提高氧化还原性能和吸附NO性能.活性评价结果表明,La_0.80K_0.20MnO₃催化剂表现出较好的同时消除NO和碳烟催化性能,NO最大转化率(Xmax NO)和对应反应温度(Tmax NO)分别为46.5%和436℃,碳烟起燃温度(T_ig)、CO₂浓度峰值温度(Tmax CO₂)和生成CO₂选择性(Smax CO₂)分别为341℃、454℃和98.8%.     

疏水型H-ZSM-5分子筛上NO氧化反应的研究

针对NO低温氧化催化剂的抗水汽性差的问题,以疏水型高硅H-ZSM-5分子筛为NO氧化催化剂,在温度为10~90℃、NO进口浓度为0.05%~0.08%,及相对湿度为0~100%条件下,考察了NO的氧化反应.结果表明,H-ZSM-5分子筛的硅铝比由50提高至300时,湿气条件(水汽含量1.18%)下,NO氧化率由20%升高至56%;干气下,低温有利于NO氧化;湿气下(水汽含量1.18%),NO氧化率随着温度的升高先增加后减少,最佳反应温度为20℃,与NOx工业废气的排放温度相近.200h的稳定性试验结果显示,在30℃、NO进口浓度0.08%、空时0.5s、保持相对湿度为50%或100%时,NO氧化率可维持在60%和50%,催化剂具有良好的稳定性.     

SO2气氛下Cu-Ce-O催化剂氧化柴油车排气碳烟的性能

运用程序升温氧化(TPO)对共沉淀法合成的Cu-Ce-O催化剂进行了活性评价,考察了在不同浓度的S0,气氛下cu-Ce-O催化剂氧化模拟碳黑的性能,并用BET、XRD、TPR和FT-IR对催化剂进行了表征.BET和XRD测试显示,cu和ce的结合使催化剂比表面积增大,晶体结构发生变化,形成了复合氧化物;TPO活性测试结果表明,Cu-Ce-O复合催化剂比单一组分的CuO或CeO2具有更好的低温催化活性.复合氧化物cu-Ce-O中Cu原子含量越高,对应硫化后的催化剂氧化碳烟的能力越低,同时催化剂表面生成的硫酸盐越多,即催化剂抗硫中毒能力也降低.浓度低于0.03%的SO2对Cu-Ce-O的催化性能有一定的促进作用,但SO2的体积分数超过0.03%后碳黑燃烧速率变慢;FT-IR初步证实了高体积分数的SO2所产生的大量SO24-可能是抑制催化剂活性的原因.     

Ce/Zr系列催化剂上碳颗粒物燃烧行为

分别在TG和TPO上考察了CeO₂,ZrO₂及不同Ce/Zr比的CexZr1-xO₂固溶体催化剂上soot的燃烧性能,同时考察了反应气氛对活性的影响.结果表明:Ce基催化剂能明显降低soot的起燃温度,Ce/Zr比的不同导致Ce_xZr_1-xO₂催化剂性能的差异.反应的速度控制步骤随O₂浓度的不同而改变;H₂O对Ce_0.5Zr_0.5O₂上soot的氧化活性基本没有影响;由于NO氧化产生的NO₂具有更强的的氧化能力,因此NO对soot的燃烧具有促进作用,起燃温度降低了30℃.催化剂上的β氧种参与了soot燃烧过程.