Mn-V-Ce/TiO_2低温催化还原NO性能研究

采用浸渍法制备了NH3选择性催化还原(SCR)NO新型催化剂Mn-V-Ce/TiO2,考察了操作条件对其活性的影响;通过NO、O2、NH3的暂态响应实验分析了在该催化剂上进行SCR反应的机理;对催化剂进行了FT-IR和TG分析,探讨了H2O、SO2对其活性的影响。结果表明,该催化剂具有很好的低温SCR活性,空速5 000 h-1、150℃下的NO转化率达99.2%。170℃下同时通硫、水后的350 min内,活性始终保持在98%;单独通入SO2时,中毒速率较快,但体积分数为8%的H2O对该催化剂的活性没有影响,转化率始终保持在98%以上。该催化剂能应用于不含SO2的燃气锅炉烟气和不含SO2的硝酸尾气等NOx工业废气的低温脱硝。     

理论空燃比天然气汽车尾气中H2O和O2对CH4与NO反应的影响

共沉淀法制备CeZrYLa+LaAl 复合氧化物载体, 等体积浸渍法制备了Pt 催化剂, 用于研究理论空燃比天然气汽车(NGVs)尾气净化反应中CH₄与NO的反应规律. 并考察了10% (体积分数, φ)H₂O和计量比O₂对CO₂存在时的CH₄+NO反应的影响. 结果表明: 对于不同条件下的NO+CH₄反应, 主要生成N₂和CO₂, 高温区有CO生成. 低温区无O₂时可以生成N₂O, 有O₂时可以生成NO₂; 添加10% (φ)的H₂O后, CH₄ 转化活性降低, NO转化活性基本不变, 这是由于H₂O减弱了CH₄与CO₂的重整反应, 但是对CH₄与NO的反应基本没有影响; 添加计量比的O₂后, CH₄转化活性提高, 而NO转化活性降低, 这是由于O₂和NO之间存在竞争吸附, CH₄被O₂氧化为主要反应, 从而减弱了NO的转化; 同时添加计量比的O₂和10% (φ) H₂O, CH₄与CO₂的重整反应受到抑制,CH₄与NO的反应、甲烷蒸汽重整反应和甲烷被O₂氧化反应同时发生, CH₄和NO的转化活性均提高.     

钛纳米管负载锰催化剂的低温选择性催化还原脱硝性能

采用水热法合成了钛纳米管（TiNT）,以400℃焙烧后得到的TiO₂纳米管为载体,采用浸渍法制备了MnO_x/TiNT催化剂,用于低温NH₃选择性催化还原脱NO反应（SCR）。BET、TEM、XRD及TG测试表明,经过400℃焙烧之后的钛纳米管主要成分为锐钛矿型TiO₂,所制备的催化剂活性组分分散性较好。在模拟烟气条件下,考察了锰负载量、空速、O₂含量、氨氮比及进口NO浓度对MnO_x/TiNT的SCR催化性能的影响。在150℃、\[NH₃\]/\[NO\]比为1.2、O₂浓度为3%、NO浓度为0.06%、空速GHSV为23613.8h^-1、Mn的负载量为5%~15%的条件下,NO的转化率达到95%以上。反应气氛中单独通入水会造成催化剂的活性下降;切断H₂O,催化剂的活性可以恢复至初始水平。温度越高,催化剂抗水性能越好,而且水存在情况下的抗硫性能优于其单独抗硫性能。再次切断H₂O和SO₂,催化剂的活性逐渐上升,但不能恢复到初始水平。     

Electron beam treatment of lignite-burning flue gas with high concentrations of sulfur dioxide and water

Experiments were carried out to investigate the removals of SO₂ and NO_x from simulated lignite-burning flue gas containing SO₂ (4800 ppm), NO (320 ppm) and H₂O (22%) by electron beam irradiation. Removal efficiencies of SO₂ and NO_x were achieved to reach 97 and 88% at 70°C, and 74 and 85% at 80°C, respectively, with the dose of 10.3 kGy without NH₃ leakage. The higher removal efficiencies of SO₂ and NO_x were observed in simulated lignite-burning flue gas than in coal-fired flue gas containing 800 ppm of SO₂, 225 ppm of NO and 7.5% H₂O at the same treatment condition. The higher removal efficiencies were attributed to the higher concentrations of SO₂, H₂O, and added NH₃. Simulation calculations indicated that the higher concentrations of these components enhance the effective radical reactions to oxidize NO to form NO₂ with HO₂ radical, and to oxidize SO₂ to form SO₃ with OH radical and O₂. The reactions of NO_x with N and NH₂ radicals to produce N₂ and N₂O also promote the NO_x removal. By-product was determined to be the mixture of (NH₄)₂SO₄ and NH₄NO₃ containing a small amount of H₂SO₄.     

Mg/Al物质的量比对Ce-La/MgAl2O4-x催化剂催化CO还原NO性能的影响

采用初始浸渍法制备了不同Mg/Al物质的量比的Ce-La/MgAl₂O₄-x催化剂,并通过低温N₂-吸附脱附、XRD、H₂-TPR和CO-TPR等手段对其进行了表征。结果表明,在Mg/Al物质的量比为0.5时,催化剂催化CO还原NO的性能最好。这主要是因为适量Mg的添加促进了CeO₂的分散和Ce-O-La固溶体的形成,从而使得表面Ce³⁺和氧空穴增加。两者的协同作用使得Ce-La/MgAl₂O₄-0.5表现出最佳的催化性能。另外,适量Mg的引入可以抑制Ce（SO₄）₂和Ce₂（SO₄）₃的形成,从而提高了Ce-La/MgAl₂O₄-0.5催化剂抗硫中毒能力。     

Radiation induced scavenging of NOx, SO2, H2S from exhaust gases

The theoretical model of exhaust gases radiation induced oxidation was developed. NO, SO₂ and H₂S concentrations curves vs dose calculated by use of this model for mixtures containing N₂ (80.5%), O₂ (11%), H₂O (8.4%), NO (100–600 ppm), SO₂ (150–500 ppm) and H₂S (300–1000 ppm) have been obtained. It has been shown that NO and SO₂ conversion reactions with acids formation go simultaneously with oxidizing reaction of H₂S giving SO₂ as an intermediate substance. These processes were evaluated for different initial concentrations of NO, SO₂ and H₂S. Data established by our simulation calculations show that the electron beam process can be judged as a promising technology for simultaneous removal of SO₂, NO and H₂S from exhaust gases.     

The electrolyte NRTL model and speciation approach as applied to multicomponent aqueous solutions of H2SO4, Fe2(SO4)3, MgSO4 and Al2(SO4)3 at 230–270 °C

This work presents chemical modeling of solubilities of metal sulfates in aqueous solutions of sulfuric acid at high temperatures. Calculations were compared with experimental solubility measurements of hematite (Fe₂O₃) in aqueous ternary and quaternary systems of H₂SO₄, MgSO₄ and Al₂(SO₄)₃ at high temperatures. A hybrid model of ion-association and electrolyte non-random two liquid (ENRTL) theory was employed to fit solubility data in three ternary systems H₂SO₄–MgSO₄–H₂O, H₂SO₄–Al₂(SO₄)₃–H₂O at 235–270 °C and H₂SO₄–Fe₂(SO₄)₃–H₂O at 150–270 °C. Employing the Aspen Plus™ property program, the electrolyte NRTL local composition model was used for calculating activity coefficients of the ions Al³⁺, Mg²⁺ Fe³⁺ and SO₄²⁻, HSO₄⁻, OH⁻, H₃O⁺, respectively, as well as molecular species. The solid phases were hydronium alunite (H₃O)Al₃(SO₄)₂(OH)₆, hematite Fe₂O₃ and magnesium sulfate monohydrate (MgSO₄)·H₂O which were employed as constraint precipitation solids in calculating the metal sulfate solubilities. A correlation for the equilibrium constants of the association reactions of complex species versus temperature was implemented. Based on the maximum-likelihood principle, the binary interaction energy parameters for the ionic species as well as the coefficients for equilibrium constants of the reactions were obtained simultaneously using the solubility data of the ternary systems. Following that, the solubilities of metal sulfates in the quaternary systems H₂SO₄–Fe₂(SO₄)₃–MgSO₄–H₂O, H₂SO₄–Fe₂(SO₄)₃–Al₂(SO₄)₃–H₂O at 250 °C and H₂SO₄–Al₂(SO₄)₃–MgSO₄–H₂O at 230–270 °C were predicted. The calculated results were in excellent agreement with the experimental data.     

SO_2和H_2O对CeO_2/TiO_2/堇青石催化剂选择催化还原NO_x性能的影响

采用浸渍法制备了以堇青石为基底、氧化铈为活性组分的整体式脱硝催化剂CeO2/TiO2/堇青石催化剂。通过与商业钒基催化剂(V2O5-WO3/TiO2/堇青石)的对比研究发现,CeO2/TiO2/堇青石催化剂表现出了优良的抗硫抗水性能,经过30 h抗硫抗水实验,CeO2/TiO2/堇青石催化剂的氮氧化物转化率仍能保持在70%以上,仅下降了5%。BET、XRD、FT-IR和TG表征结果表明,在含硫含水气氛中反应时,CeO2/TiO2/堇青石和V2O5-WO3/TiO2/堇青石催化剂表面均有硫酸铵盐的生成,且前者的生成量明显低于后者。NH3-DRIFT分析结果表明,在含硫含水气氛中两种催化剂表面Brnsted酸性都被增强,而Lewis酸性有所减弱。进一步的XPS分析结果表明,烟气中的SO2+H2O会使催化剂表面Ce4+向Ce3+发生转化,从而导致化学吸附氧含量增加,这是CeO2/TiO2/堇青石催化剂具有优良抗硫抗水性能的重要原因。     

CeO2/TiO2 Monolith Catalyst for the Selective Catalytic Reduction of NOx with NH3: Influence of H2O and SO2

The influences of H₂O and SO₂ on CeO₂/TiO₂ monolith catalyst for the selective catalytic reduction(SCR) of NO_x with NH₃ were investigated. In the absence of SO₂, H₂O inhibited the SCR activity, which might be ascribed to the competitive adsorption of H₂O and reactants such as NH₃ and/or NO_x. SO₂ could promote the SCR activity of CeO₂/TiO₂ monolith catalyst in the absence of H₂O, while in the presence of H₂O it speeded the deactivation. During the SCR reaction in SO₂-containing gases, Ce(III) sulfate species formed on the catalyst surface, resulting in the enhancement of Brønsted acidity. This played a significant role in the enhanced SCR activity. However, in the presence of both H₂O and SO₂, a large amount of ammonium-sulfate salts formed on the catalyst surface, which resulted in the blocking of catalyst pores and deactivated the catalyst. In addition, the NO_x conversion was more sensitive to gas hourly space velocity in the presence of H₂O than in the absence of H₂O. The relatively high space velocity would result in a higher formation rate of ammonium-sulfate salts on per unit catalyst in the presence of H₂O and SO₂, which caused obvious deactivation of Ce/TiO₂ monolith catalyst.     

Measurements of thermal energy neon ion—neutral reaction rate coefficients and product ion distributions

Reaction rate coefficients and product ion distributions have been measured for the reaction of Ne⁺ with H₂, N₂, CO, CO₂, N₂O, CH₄, O₂, NO, NH₃, SO₂, CH₃Cl, COS, H₂O and C₂H₄ at 300 K using a selected ion flow tube (SIFT) apparatus. In most cases the major reaction channel involves dissociative ionization while for N₂, CO⁺, H₂O, CH₄ and CH₃Cl these reactions proceed mainly or exclusively by simple charge transfer. For H₂ the process is exclusively hydrogen atom abstraction. The measured rate coefficients are compared with the values given by the Langevin and average-dipole orientation theories of ion—molecule collisions. In general the reaction probability (ratio of measured rate to the Langevin or ADO rate) is greater for the dissociative ionizaton reactions, although H₂O is an exception with quite fast simple charge transfer.     

铈源对甲醇水蒸气重整制氢CuO/CeO2催化剂的影响

采用沉淀法合成了CeO_2载体,再经浸渍法负载活性组分得到CuO/CeO_2催化材料,探究了铈源(Ce(NO_3)_3·6H_2O、Ce Cl_3·6H_2O、Ce(NH_4)_2(NO_3)_6、Ce(SO_4)_2·4H_2O)对CuO/CeO_2催化性能的影响。通过采用XRD、SEM、N_2O滴定、BET和H_2-TPR等表征手段对催化材料的结构和性质研究发现,四种铈源合成的CuO/CeO_2催化材料在Cu比表面积、还原性能以及活性组分和载体间的相互作用方面存在着明显差别。其中,由Ce(NO_3)_3·6H_2O合成的CuO/CeO_2催化材料的Cu比表面积较大,CuO还原温度较低,CeO_2载体与CuO之间相互作用较强,在甲醇水蒸气重整反应过程中,表现出较佳的催化活性,在反应温度为553 K,水醇比n(H_2O)/n(MeOH)为1.2,甲醇水蒸气气体空速(GHSV)为1760 h~(-1)时,甲醇的转化率为100%,重整气中CO摩尔含量为0.84%。     

锰锆复合氧化物CO催化还原NO性能研究

采用柠檬酸络合法制备了锰锆复合氧化物催化剂,用XRD、H_2-TPR、XPS和SEM等技术进行了表征,研究了其CO催化还原NO性能。结果表明,MnO_x主要以Mn_3O_4物相存在,Zr占比的增加会促进Mn_3O_4物相的分散,引起Mn_3O_4平均晶粒粒径减小;Mn主要有Mn~(2+)、Mn~(3+)、Mn~(4+)离子价态形式,添加Cu和Ce后,(Mn~(3+)+Mn~(4+))含量和表面吸附氧(OA)含量增加,H_2-TPR还原峰温度向低温区偏移,有利于催化活性的提升。Mn-Zr-O复合氧化物的CO催化还原NO活性较低,加入Cu后的Mn-Cu-Zr-O复合氧化物其CO催化还原NO的活性得到改善,而添加Ce后所制备的Mn-Cu-Ce-Zr-O复合氧化物的催化活性进一步提高;在350℃下、反应空速为18000 h~(-1)时,Mn-Cu-Ce-Zr-O复合氧化物表现出较好的CO催化还原NO活性,CO转化率达到了89.17%,NO转化率达到了91.70%。     

O2/CO2气氛下CO2和H2O气化反应对煤及煤焦燃烧特性的影响

利用热天平对比研究了大同煤及煤焦在O₂/N₂、O₂/CO₂和O₂/H₂O/CO₂中的燃烧行为,探讨CO₂和H₂O气化反应对其富氧燃烧特性的影响。结果表明,在5%氧气浓度下,煤粉在O₂/N₂、O₂/CO₂和O₂/H₂O/CO₂中的燃烧速率按顺序依次降低。氧气浓度降低到2%,由于CO₂和H₂O气化反应的作用,煤粉在高温区的整体反应速率按顺序依次增大。当氧气浓度为5%时,煤焦在O₂/CO₂中的燃烧速率要低于O₂/N₂中的燃烧速率,但燃烧反应推迟后气化反应的参与使得煤焦在O₂/H₂O/CO₂中的整体反应速率显著升高。当氧气浓度降低到2%后,随着温度的升高,在CO₂气化反应的作用下,煤焦在O₂/CO₂中的整体反应速率逐渐高于O₂/N₂中的燃烧速率。在O₂/H₂O/CO₂中,由于H₂O在共气化中起主要作用,煤焦在O₂/H₂O/CO₂高温区的整体反应速率进一步升高。动力学分析表明,在5%氧浓度时,煤焦在O₂/N₂、O₂/CO₂和O₂/H₂O/CO₂中的表观活化能依次升高。随着氧气浓度的降低,在不同反应气氛中的表观活化能均有所下降。     

High temperature reaction of SiCl4 and O2 in quartz tubes

The reaction between SiCl₄ and O₂ at 1 atm between 25 and 1200°C has been followed by mass spectrometry. Below 600°C no reaction with O₂ is noted. Above 600°C the reaction proceeds in two steps. Between 800 and 1000°C the ²⁸Si/³²O₂ peak height ratio is constant with no evolution of Cl₂. It is suggested that silicon oxychlorides are being formed in this temperature regime. Above 1000°C the reaction between SiCl₄ and O₂ intensifies with concomitant production of Cl₂. It is suggested that above 1000°C the reaction SiCl₄ + O₂ → SiO₂ + Cl₂ becomes important.

At low temperatures (<800°C) adsorbed H₂O and OH groups from the surface of the fused silica tube react with SiCl₄ to form HCl. The importance of this reaction decreases with increasing temperature. The increased production of HCl above 1000°C is ascribed to H₂O and H₂ diffusing from the tube.     

铝源对Ni/Al2 O3催化剂结构及其CO2-CH4重整性能的影响

以三种不同铝源采用溶液燃烧法制备了系列Ni/Al_2O_3催化剂,通过XRD、H_2-TPR、NH_3-TPD、N_2吸附-脱附、TGDTG和TPH等分析方法对反应前后催化剂进行了表征,研究了铝源对Ni/Al_2O_3催化剂结构、表面性质及其CO_2-CH_4重整性能的影响。结果表明,以Al(NO_3)_3·9H_2O为铝源制备的NiNO-AlNO催化剂比表面积较大,达102 m~2/g;高温还原峰面积大,峰型更为弥散;且载体Al_2_O_3具有一定的结晶性。而以Al_2(SO_4)_3·18H_2O和AlCl_3·6H_2O为铝源制备的NiNO-AlSO和NiNO-AlCl催化剂,其载体以无定型Al_2O_3存在,活性组分Ni晶粒粒径大、分散性差,还原峰面积较小,与载体的相互作用较弱。其中,由于硫酸铝较为稳定,需要在更高温度下才能转化为Al_2O_3,且所制备NiNO-AlSO催化剂中残留有含硫物质,使得其表面酸性较强。评价结果显示,NiNO-AlNO催化剂活性较高,稳定性好,CH4转化率为31.21%,CO_2转化率为48.97%。积炭分析结果发现,NiNO-AlNO催化剂表面积炭量最少,沉积炭主要以无定型态存在,具有良好的抗积炭性能。     

非晶态CeO_2@TiO_2催化剂的结构、性质及其选择催化还原脱硝性能

采用自发沉积法制备了非晶态Ce O_2@Ti O_2催化剂,通过XRD、Raman光谱、TEM、N_2吸附、H_2-TPR、NH_3-TPD及FTIR等手段表征了催化剂结构和表面性质,研究了Ce O_2@Ti O_2在选择催化还原脱NO反应中的催化性能。结果表明,非晶态Ce O_2@Ti O_2催化剂中Ce与Ti间存在很强的相互作用,能够在原子水平上相互结合,表现出与晶态结构截然不同的还原特性,具备更强的氧化还原能力。同时,与浸渍法制备的Ce O_2/Ti O_2相比,Ce O_2@Ti O_2还具有更大的比表面积和更强的表面酸性,因而具有更加优异的脱硝性能。在175℃下NO转化率即达到80%以上,在200-400℃脱硝率稳定在96.0%-99.4%;同时,H_2O和SO_2的阶跃应答实验表明,Ce O_2@Ti O_2具有很强的抗水和抗SO_2毒化能力。     

SO2对Co/MOR催化剂上CH4选择催化还原NO反应性能的影响

考察了富氧条件下SO₂存在对丝光沸石负载的钴催化剂（Co/MOR）上甲烷选择催化还原NO的反应性能的影响,并采用NO程序升温脱附(NO-TPD)、X射线衍射(XRD)、H₂程序升温还原(H₂-TPR)和紫外可见漫反射光谱(UV-vis DRS)等技术对反应前后催化剂的NO吸附性能和结构特征进行了表征。结果表明,受SO₂气氛的影响,Co/MOR催化剂上NO转化率在低于550℃时下降较大,但在高于600℃时SO₂的影响不明显,而且这种影响是可逆的。SO₂的存在抑制了NO在催化剂活性位上的吸附,同时在反应过程中促进了CoO物种的生成,导致催化剂活性中心数减少、催化剂活性下降。     

M-Y/AC催化剂同时脱硫脱硝性能研究

采用等体积浸渍法制备了一系列的1%M-6%Y/AC(M为Ni、Al、Mo)催化剂,以CO作为还原剂,考察其同时脱硫脱硝的催化活性,通过X射线衍射(XRD)、H2-程序升温还原(H2-TPR)、比表面积(BET)对催化剂进行表征。活性评价结果表明,1%Ni-6%Y/AC催化剂的脱硫脱硝催化活性最佳,无氧条件下SO_2和NO的t90分别为383和378℃。在考察Ni O的负载量对催化剂影响中,0.5%Ni-6%Y/AC催化活性最佳,无氧条件下SO_2和NO的t90分别为370和360℃。     

Co/Fe/Al2O3/cordierite催化C3H6选择性还原NO的实验研究

采用溶胶凝胶法和浸渍法制备了负载于蜂窝陶瓷上的Co/Fe/Al₂O₃/cordierite催化剂,在陶瓷管流动反应器上对其催化C₃H₆选择性还原NO的性能进行了测试。结果表明,该催化剂表现出最优脱硝性能,在模拟烟气条件下,当反应温度为550 ℃时可实现97%的脱硝效率。Co的引入可显著增强Fe/Al₂O₃/cordierite催化剂抗SO₂和H₂O的能力。在模拟烟气中同时引入0.02% SO₂和3% H₂O后,1.5Co/Fe/Al₂O₃/cordierite的脱硝性能受影响甚微,当反应温度高于500 ℃时1.5Co/Fe/Al₂O₃/cordierite催化C₃H₆还原NO的效率均可达到90%以上;相比之下,未经Co修饰的催化剂Fe/Al₂O₃/cordierite脱硝性能受到了严重的抑制,在整个反应温度区间（200-700 ℃）内,其催化C₃H₆还原NO的效率最高不足50%。XRD和SEM表征结果表明,经过适量的Co修饰后的1.5Co/Fe/Al₂O₃/cordierite表面变得更疏松,且形成了以钴铁和钴铝双金属氧化物为主要成分的球状晶粒。H₂-TPR结果表明,相比于Fe/Al₂O₃/cordierite,1.5Co/Fe/Al₂O₃/cordierite有更好的低温还原性能。Py-FTIR结果表明,Co的引入可使催化剂表面的Lewis酸明显增加,且生成了Brønsted酸。N₂吸附-脱附表征结果表明,Co可增大催化剂的比表面积。     

不同金属改性对Pt/β-分子筛催化柴油车尾气中HC、CO及SO_2氧化性能的影响

采用共浸渍法制备了Ce、Cr、Mo和Cu改性的Pt/β-分子筛催化剂,运用氮吸附、XRD、H_2-TPR、NH_3-TPD和XPS等手段对该催化剂进行了表征,研究了不同金属改性对催化剂的织构性质、骨架结构、表面酸性以及在模拟柴油车尾气中抑制SO_2氧化性能和催化HC、CO氧化活性的影响。结果表明,金属改性对催化剂织构性能和骨架结构影响较小。Cr、Mo和Cu的添加可以调变催化剂酸强度,进而抑制SO_2的氧化;Cu改性的催化剂具有最好的抑制SO_2氧化的能力,在350和450℃条件下,与未改性Pt/β-分子筛催化剂相比,Cu改性催化剂上SO_2转化率分别下降了70.4%和70.2%。然而,改性金属与Pt物种之间产生的相互作用,会使Pt物种更难还原,导致Pt对HC和CO氧化的催化活性降低。