载体对负载钴催化剂CH_4/CO_2重整反应的影响

采用固定床微反应器、利用 XRD及 TPR技术研究了载体对负载于 γ- Al2 O3、Si O2 和HZSM- 5分子筛上的 Co催化剂的 CH4/ CO2 重整制合成气反应性能的影响 .结果表明 ,金属与载体之间的相互作用是影响催化剂活性和稳定性的重要因素 .HZSM- 5是一种优良载体 ,但硅铝比较低易积炭 ;Co/ Si O2 及低负载量的 Co/ Al2 O3催化剂活性较低易失活 ,其失活原因前者为 Co0 晶粒的烧结 ,后者为 Co0 向 Co Al2 O4的转变 .探讨了金属 -载体相互作用与催化剂性能之间的关系     

Ni/Ce-Zr-Al-O催化剂的表面碱性和CO2＋CH4重整性能

用水热法制备了不同NiO含量的Ni/Ce-Zr-Al-O催化剂.用H2-TPD (程序升温脱附),DRIFTS(漫反射红外傅立叶变换光谱),CO2-TPD等方法考察了NiO的含量对催化剂表面碱性的影响,并和反应稳定性以及抗积碳性能相关联.H2-TPD结果表明,随NiO含量的增加,催化剂表面的Ni含量增加.DRIFT和CO2-TPD结果表明CO2的化学吸附主要是碳酸盐和碳酸氢盐形式.添加少量Ni能够使表面碱性位数量显著增加,碱强度减弱.Ni可能优先占据在催化剂表面较强的碱性位上,再增加Ni的含量则会使碱强度减弱,碱性位有所减少,降低CO2的吸附性能,从而减弱从CO2获得活动氧以消碳的能力.这种作用使NiO含量为7.0％(w)的样品活性随反应进行而减低,积碳量是NiO含量为4.0％(w)的样品的3.7倍.     

CO2重整甲烷反应高效稳定Ni/ZrO2催化剂的纳米结构特点

分别通过在常压流动N2气中加热处理ZrO(OH)2醇凝胶和在空气中焙烧ZrO(OH)2水凝胶制备了含不同晶相组成和不同尺寸ZrO2纳米粒子的Ni/ZrO2催化剂.Ni/ZrO2催化剂上CO2重整CH4反应的活性和稳定性以及多种催化剂表征(XRD,TEM,TPR及TPD等)数据表明,高效稳定的Ni/ZrO2催化剂必须具有“金属/氧化物”纳米复合物的特征.ZrO2纳米粒子的晶相组成对CO2重整甲烷反应中纳米复合物型Ni/ZrO2催化剂的稳定性没有明显影响.     

抗积炭CH_4/CO_2重整用Ni/Al_2O_3催化剂

甲烷转化制备的合成气是合成液体燃料和含氧有机化合物的原料 .甲烷转化制合成气的方法有甲烷蒸汽重整、甲烷部分氧化和甲烷、二氧化碳重整 3种 [1～ 3] .对于 CH4/CO2 重整反应 ,调节进料比可制备出 H2 /CO≤ 1、富含 CO的合成气 ,它适于羰基合成和 F- T合成 .这种方法一方面充分利用碳资源 ,缓解能源危机 ;一方面可减少温室气体的排放 ,改善人类的居住环境 .目前倍受关注 .CH4/CO2 重整制合成气 ,Rh、Ru、Pd、Ir等贵金属有很高的活性和稳定性 [4] .但其价格昂贵 ,高温易流失 ,商业化困难 .Ni基催化剂的活性与贵金属相当 ,但它易积…     

A Novel Catalyst for CO_2 Reforming of CH_4

The reforming of CH4 with CO2 into syngas is a very attractive route for the production of energy and chemicals. One of the major problems encountered in the application of this process is catalyst deactivation mainly by carbon deposition (ia the Boudouard reaction and/or CH4 cracking, which are favorable under reaction conditions1~3. During the past dacades, the process has received attention and nickel and noble metal catalysts have been extensively studied, but few studies were made on co…     

Utilizing Non-ferrous Metal Tailings to Propare Ni/SiO2 -CaO-Fe2O3 Catalyst for CO2 Reforming of CH4 to Syngas

以尾矿为载体原料,经不同温度焙烧预处理、等体积浸渍制备了一系列负载型Ni/SiO2-CaO-Fe2O3催化剂并用于CO2重整CH4制合成气,重点考察了载体原料的焙烧温度对催化剂性能的影响.用ICP-AES,XRD测定了有色金属尾矿的成分,用H2-TPR,CO2-TPD,TPO等对催化剂的还原性能、吸附性能、抗积炭性能进行了表征.结果表明,载体原料经850℃焙烧后所负载的镍催化剂在800℃条件下CO2转化率为78.5%,CH4转化率为71.2%,CO和H2选择性分别达到92.2%,89.5%.     

高稳定度CH4/CO2重整Ni/MgO催化剂的研究

用TPR,TPD,TPO,TPMC(程序升温CH₄解离积炭)和活性评价等手段研究了普通浸渍法与载体盐助分散浸渍法制得的CH₄/CO₂重整制合成气Ni基催化剂的性能.结果表明,用载体盐助分散浸渍制备的催化剂Ni-O-Mg间作用较强,吸附CO₂能力较大,CH₄解离积炭量少,因此其稳定性及寿命较好.     

Catalytic Performance and Characterization of Pt‐Co/Al2O3 Catalysts for CO2 Reforming of CH4 to Synthesis Gas

Pt‐Co/Al₂O₂ catalyst has been studied for CO₂ reforming of CH₄ to synthesis gas. It was found that the catalytic performance of me catalyst was sensitive to calcination temperature. When Co/Al₂O₃ was calcined at 1473 K prior to adding a small amount of Pt to it, the resulting bimetallic catalyst showed high activity, optimal stability and excellent resistance to carbon deposition, which was more effective to the reaction than Co/Al₂O₃ and Pt/Al₂O₃ catalysts. At lower metal loading, catalyst activity decreased in the following order: Pt‐Co/ Al₂O₃ > Pt/Al₂O₃ > Co/Al₂O₃. With 9% Co, the Co/Al₂O₃ calcined at 923 K was also active for CO₂ reforming of CH₄, however, its carbon formation was much more fast man that of the Pt‐Co/Al₂O₃ catalyst. The XRD results indicated that Pt species well dispersed over the bimetallic catalyst. Its high dispersion was related to the presence of CoAl₂O₄, formed during calcining of Co/Al₂O₃ at high temperature before Pt addition. Promoted by Pt, Co/Al₂O₄ in the catalyst could be reduced partially even at 923 K, the temperature of pre‐reduction for the reaction, confirmed by TPR. Based on these results, it was considered that the zerovalent platinum with high dispersion over the catalyst surface and the zerovalent cobalt resulting from Co/Al₂O₄ reduction are responsible for high activity of the Pt‐Co/Al₂O₃ catalyst, and the remain Co/Al₂O₄ is beneficial to suppression of carbon deposition over the catalyst.     

水蒸汽对Ni/CeO2-ZrO2-Al2O3催化剂上CO2+CH4重整反应的影响

The Ni/CeO2 -ZrO2 -Al2O3 catalyst was prepared with the hydrothermal method. The catalytic performance for the CO2 reforming of CH4 reaction with or without small amount of steam was tested and the amount of coke deposition was measured. The XAFS of Ni K-edge was attained. The results show that the formation of CeAlO3 occurs in reaction,but the coke deposition is responsible for the deactivation of the catalyst. The addition of steam into feed gas can decrease the amount of coke deposition,and promote the stability. Due to the carbon atom penetration into the Ni lattice,for the catalyst sample after reaction without the addition of steam into feed gas,the coordination number of the first Ni-Ni shell decreases sharply. For the catalyst sample after reaction with the addition of steam in feed gas,the coordination numbers of the first Ni-Ni shell decrease slightly. It is due to the addition of steam into feed gas,which can suppress the coke formation and maintain the metallic structure of active Ni metal.     

负载型纳米ZrO_2/Al_2O_3复合载体的制备和表征及其Ni/ZrO_2/Al_2O_3催化性能的研究

以大孔Al2O3为基载体,采用沉积-沉淀法和溶胶-沉积法制备了负载型纳米ZrO2/Al2O3复合载体.用XRD、TEM和比表面与孔径测定等手段对载体进行了表征.结果表明,负载型纳米ZrO2/Al2O3复合载体具有较大的比表面积和适宜的孔径分布,纳米ZrO2在载体上呈单层均匀分布.以CH4-CO2重整制合成气为探针反应,考察了Ni/ZrO2/Al2O3催化剂的活性和选择性.     

在Co/SiO2作催化剂的Fischer-Tropsch反应中温度对合成气吸附行为及稳定性的影响

考察了反应温度对Co/SiO2催化剂在Fischer-Tropsch(F-T)合成中合成气吸附行为及稳定性的影响. 采用FTIR, TPSR, XRD, BET, HTPD和TPR等手段对催化剂进行了表征. 结果表明, CO在催化剂表面的吸附为活化吸附, 在270 ℃仍稳定存在, 随着反应温度的升高, 催化剂上发生的主反应由CO加氢链增长反应向Boudouard反应转化, 当反应温度≥350 ℃时, 以Boudouard反应为主. 另外, 随反应温度升高, 金属钴的烧结现象变得明显, 并伴随着硅酸钴或水合硅酸钴物种的生成. 在催化剂的失活因素中, 烧结为主要原因.     

甲烷／二氧化碳重整反应催化剂的制备及反应性能研究

采用浸渍法制备载镍ＣＨ４／ＣＯ２重整反应催化剂，应用ＩＣＰ，ＢＥＴ，ＥＰＭＡ，ＳＥＭ，ＴＥＭ，ＸＰＳ等手段考察了焙烧温度，浸渍液酸度，助剂等制备条件对催化剂结构及反应性能的影响。结果表明，低温热处理制备的Ｎｉ／γ－Ａｌ２Ｏ３催化剂具有较高的ＣＨ４／ＣＯ２重整反应活性．经酸或强碱溶液中制备的催化剂尽管活性分布及孔结构等均扔所不同，但二者的反应活性都很高；     

一种新型结构的CO2重整CH4催化剂的制备与催化性能研究

研制高效、稳定的Ni基催化剂一直是CO2重整CH4反应过程的重点之一。本文采用微波技术和真空浸渍法制备了ZrO2单层分布的负载型ZrO2／Al2O3复合载体和活性物种单层分布的Ni／ZrO2／Al2O3催化剂,并利用XRO、FT-IR、TPR、TPD、BET等技术研究了新型结构催化剂的分散状态、体相结构、表面性能、催化活性及稳定性。结果表明,催化剂在CO2重整CH4反应体系中具有良好的催化活性和稳定性。     

Effect of Nano‐support and Type of Active Metal on Reforming of CH4 with CO2

Two series of Co and Ni based catalysts supported over commercial (ZrO₂, CeO₂, and Al₂O₃) nano supports were investigated for dry reforming of methane. The catalytic activity of both Co and Ni based catalysts were assessed at different reaction temperatures ranging from 500—800 °C; however, for stability the time on stream experiments were conducted at 700 °C for 6 h. Various techniques such as N₂ adsorption‐desorption isotherm, temperature‐programmed reduction (H₂‐TPR), temperature‐programmed desorption (CO₂‐TPD), temperature‐programmed oxidation (TPO), X‐ray diffraction (XRD), thermogravimetric analysis (TGA) were applied for characterization of fresh and spent catalysts. The catalytic activity and stability tests clearly showed that the performance of catalyst is strongly dependent on type of active metal and support. Furthermore, active metal particle size and Lewis basicity are key factors which have significant influence on catalytic performance. The results indicated that Ni supported over nano ZrO₂ exhibited highest activity among all tested catalysts due to its unique properties including thermal stability and reducibility. The minimum carbon deposition and thus relatively stable performance was observed in case of Co‐Al catalyst, since this catalyst has shown highest Lewis basicity.     

载体对负载钴催化剂CH4/CO2重整反应的影响

重整制合成气;载体对负载钴催化剂CH4/CO2重整反应的影响     

La2NiO4／Al2O3催化剂上CH4／CO2的重整

 通过溶胶－凝胶方法制备了尖晶石结构的La2NiO4／Al2O3催化剂，采用BET，XRD和TG表征了催化剂的孔分布、比表面积、体相组成以及凝胶样品的热失重和热分解过程．将催化剂应用于CH4／CO2重整反应制合成气，考察了惰性气体和反应温度对转化率、选择性以及积碳的影响．结果表明，在高空速（GHSV＝4．8×104ml／（g·h））下，CH4和CO2转化率分别为51％和60％，CO和H2的选择性约为98％和92％，惰性气体He的引入明显地提高了CH4和CO2的转化率．     

锆助剂含量对钴基费-托合成催化剂的影响

考察了锆助剂含量对钴基催化剂的结构及费－托合成反应性能的影响。结果表明,随着锆含量的增加,甲烷的生成受到抑制,重质烃选择性提高,重质烃合成的操作温度区间加宽,且催化剂仍保持较高的活性。ＴＰＲ,Ｈ２－ＴＰＤ,ＸＲＤ及ＥＸＡＦＳ等表征结果表明,锆助剂单层分散于硅胶表面,而钴以一定尺寸的聚集态存在;随着锆含量的增加,锆覆盖的硅胶表面增加,裸露的硅胶表面减小,而钴的分散度几乎不变。这使得钴锆界面增大,钴硅     

水蒸气对Ni/Ce-Zr-Al-Ox催化剂上CO2重整CH4瓜的影响

采用水热合成-负载法制备了Ni/Ce-Zr-Al-Ox催化剂,测试了该催化剂上CO2重整CH4反应的活性和稳定性,并考察了添加少量水蒸气对CO2重整CH4反应的影响.结果表明,在不含水蒸气的反应气中反应198 h后CH4和CO2的转化率分别为89%和98%,H2/CO摩尔比约为1.00,且没有任何失活.添加3.2%的水蒸气后,CH4转化率提高到94%,CO2转化率不变,H2/CO摩尔比约提高0.06,同时稳定性也很好.计算结果表明,添加少量水蒸气后,CO2重整CH4被促进,逆水煤气反应被抑制,而水蒸气重整CH4没有明显变化.     

制备方法对Ni/MgO/Al2O3催化剂在甲烷与二氧化碳重整反应活性的影响

采用浸渍－还原法制备的Ｎｉ／ＭｇＯ／Ａｌ２Ｏ３在ＣＨ４与ＣＯ２重整制合成气反应中显示出良好的催化性能和一定的抗积炭能力;在１０２３Ｋ下流动反应气氛中连续运转１００ｈ,未见活性下降,ＣＨ４及Ｃ弦均为９０％左右,ＣＯ收率高于９０％,实验还发现,ＣＨ４转化率随着原料气中ＣＯ２浓度的增加而升高,当Ｖ（ＣＯ２）／Ｖ（ＣＨ４）＝２时ＣＨ４转化率可达１００％,通过ＢＥＴ比表面积测定及ＸＲＤ,ＴＥＭ等分析手段,比