化学反应工程与工艺
化學反應工程與工藝
화학반응공정여공예
CHEMICAL REACTION ENGINEERING AND TECHNOLOGY
2014年
5期
415-420
,共6页
韦云钊%惠贺龙%李瑜%舒新前
韋雲釗%惠賀龍%李瑜%舒新前
위운쇠%혜하룡%리유%서신전
镍%活性炭%分散阈%甲烷二氧化碳重整%阈值效应
鎳%活性炭%分散閾%甲烷二氧化碳重整%閾值效應
얼%활성탄%분산역%갑완이양화탄중정%역치효응
nickel%active carbon%dispersion threshold%methane-carbon dioxide reforming%threshold effect
为研究活性炭负载Ni(Ni/AC)基催化剂在甲烷二氧化碳重整反应中的阈值效应,采用N2吸附(BET)和X射线衍射(XRD)测试技术对活性炭负载Ni(Ni/AC)基催化剂进行分析,分别探讨了浸渍溶剂和负载量对催化剂表面结构、Ni分散状态和分散阈值的影响。结果表明,采用丙酮作为溶剂制备的催化剂比纯水在活性炭载体表面更有利镍的分散,提高了活性组分有效面积,并具有更高的分散阈值。对比密置单层排列模型计算值认为Ni在AC表面呈非密置单层或亚单层分散。Ni/AC催化重整甲烷二氧化碳实验结果显示,丙酮作为浸渍溶剂比纯水制备的催化剂表现出更好的催化活性,负载型Ni/AC催化剂在甲烷二氧化碳重整反应中存在显著的阈值效应。
為研究活性炭負載Ni(Ni/AC)基催化劑在甲烷二氧化碳重整反應中的閾值效應,採用N2吸附(BET)和X射線衍射(XRD)測試技術對活性炭負載Ni(Ni/AC)基催化劑進行分析,分彆探討瞭浸漬溶劑和負載量對催化劑錶麵結構、Ni分散狀態和分散閾值的影響。結果錶明,採用丙酮作為溶劑製備的催化劑比純水在活性炭載體錶麵更有利鎳的分散,提高瞭活性組分有效麵積,併具有更高的分散閾值。對比密置單層排列模型計算值認為Ni在AC錶麵呈非密置單層或亞單層分散。Ni/AC催化重整甲烷二氧化碳實驗結果顯示,丙酮作為浸漬溶劑比純水製備的催化劑錶現齣更好的催化活性,負載型Ni/AC催化劑在甲烷二氧化碳重整反應中存在顯著的閾值效應。
위연구활성탄부재Ni(Ni/AC)기최화제재갑완이양화탄중정반응중적역치효응,채용N2흡부(BET)화X사선연사(XRD)측시기술대활성탄부재Ni(Ni/AC)기최화제진행분석,분별탐토료침지용제화부재량대최화제표면결구、Ni분산상태화분산역치적영향。결과표명,채용병동작위용제제비적최화제비순수재활성탄재체표면경유리얼적분산,제고료활성조분유효면적,병구유경고적분산역치。대비밀치단층배렬모형계산치인위Ni재AC표면정비밀치단층혹아단층분산。Ni/AC최화중정갑완이양화탄실험결과현시,병동작위침지용제비순수제비적최화제표현출경호적최화활성,부재형Ni/AC최화제재갑완이양화탄중정반응중존재현저적역치효응。
In order to research the threshold effect of supported nickel catalyst for methane-carbon dioxide reforming reaction, the nickel catalysts supported on activated carbon were analyzed by nitrogen adsorption-desorption (BET) and X-ray diffraction (XRD). The effects of the solvents of dipping solution and nickel loading on the surface structure, nickel dispersion degree and dispersion threshold were studied. The results showed that when acetone was used as the solvent, the nickel dispersion degree was higher than used purity water. The effective area and dispersion threshold of active components also were increased. The calculated value with the close-packed model suggested that Ni preferred to disperse as a sub monolayer, but not a close-packed monolayer. The results of CH4-CO2 reforming experiments indicated that catalytic activity was higher by using acetone as the solvent than purity water. It showed that the threshold effect of the supported Ni/AC catalysts existed in the CH4-CO2reforming.