燃料化学学报
燃料化學學報
연료화학학보
Journal of Fuel Chemistry and Technology
2015年
9期
1076-1082
,共7页
王永钊%范莉渊%武瑞芳%石晶%李潇%赵永祥
王永釗%範莉淵%武瑞芳%石晶%李瀟%趙永祥
왕영쇠%범리연%무서방%석정%리소%조영상
Pd-Cu/APT%凹凸棒土%氨蒸发法%氨浓度%CO常温催化氧化
Pd-Cu/APT%凹凸棒土%氨蒸髮法%氨濃度%CO常溫催化氧化
Pd-Cu/APT%요철봉토%안증발법%안농도%CO상온최화양화
Pd-Cu/APT%attapulgite clay%ammonia evaporation%ammonia concentration%room-temperature CO oxidation
以凹凸棒土( APT)作载体,采用氨蒸发法制备了Pd-Cu/APT催化剂,以CO氧化为探针反应,在连续流动微反应装置上,考察了初始氨浓度对催化剂CO常温催化氧化性能的影响。通过N2-physisorption、XRD、FT-IR、TEM和H2-TPR等手段对催化剂的结构和性质进行了表征。结果表明,在较低或过高氨浓度条件下,制备的Pd-Cu/APT中Cu物种均主要以CuO为主,仅有少量Cu2(OH)3Cl;适宜的氨浓度有利于稳定Cu2(OH)3Cl物相的形成,其薄片状的形貌特征、良好的分散状态以及与Pd物种间较强的相互作用,显著提高了CO催化氧化性能。在空速6000 h-1、CO体积分数1.5%、水蒸气体积分数3.3%的反应条件下,Pd-Cu/APT催化剂表现出优异的CO室温催化氧化活性和稳定性。
以凹凸棒土( APT)作載體,採用氨蒸髮法製備瞭Pd-Cu/APT催化劑,以CO氧化為探針反應,在連續流動微反應裝置上,攷察瞭初始氨濃度對催化劑CO常溫催化氧化性能的影響。通過N2-physisorption、XRD、FT-IR、TEM和H2-TPR等手段對催化劑的結構和性質進行瞭錶徵。結果錶明,在較低或過高氨濃度條件下,製備的Pd-Cu/APT中Cu物種均主要以CuO為主,僅有少量Cu2(OH)3Cl;適宜的氨濃度有利于穩定Cu2(OH)3Cl物相的形成,其薄片狀的形貌特徵、良好的分散狀態以及與Pd物種間較彊的相互作用,顯著提高瞭CO催化氧化性能。在空速6000 h-1、CO體積分數1.5%、水蒸氣體積分數3.3%的反應條件下,Pd-Cu/APT催化劑錶現齣優異的CO室溫催化氧化活性和穩定性。
이요철봉토( APT)작재체,채용안증발법제비료Pd-Cu/APT최화제,이CO양화위탐침반응,재련속류동미반응장치상,고찰료초시안농도대최화제CO상온최화양화성능적영향。통과N2-physisorption、XRD、FT-IR、TEM화H2-TPR등수단대최화제적결구화성질진행료표정。결과표명,재교저혹과고안농도조건하,제비적Pd-Cu/APT중Cu물충균주요이CuO위주,부유소량Cu2(OH)3Cl;괄의적안농도유리우은정Cu2(OH)3Cl물상적형성,기박편상적형모특정、량호적분산상태이급여Pd물충간교강적상호작용,현저제고료CO최화양화성능。재공속6000 h-1、CO체적분수1.5%、수증기체적분수3.3%적반응조건하,Pd-Cu/APT최화제표현출우이적CO실온최화양화활성화은정성。
With attapulgite clay ( APT ) as support, the Pd-Cu/APT catalysts were prepared by an ammonia evaporation method and characterized by N2-physisorption, XRD, FT-IR, TEM and H2-TPR. The effect of ammonia concentration on the catalytic performance of Pd-Cu/APT in CO oxidation at room temperature was investigated in a fixed-bed continuous flow microreactor. The results showed that CuO appears as the main Cu species in the Pd-Cu/APT catalysts prepared with over low or over high ammonia concentration, whereas the quantity of Cu2(OH)3Cl phase is much less. However, a proper concentration of ammonia is of benefits to forming stable Cu2( OH) 3 Cl species in Pd-Cu/APT;owing to its high dispersion, nano-platelet morphology and strong interaction with Pd species, the presence of stable Cu2 ( OH ) 3 Cl can significantly promote the catalytic performance of Pd-Cu/APT in CO oxidation. Under a gas hourly space velocity ( GHSV) of 6 000 h-1 for a feed stream containing 1. 5% CO and 3. 3% water, the Pd-Cu/APT catalyst exhibits excellent activity and stability in CO oxidation even at room temperature.
