本研究擬以農業廢棄物稻殼,經酸洗、熱解、碳燒等前處理程序,將其製成含有99wt%以上純度的非晶型二氧化矽稻殼灰分,並擬以沉澱固著法製備稻殼灰分-氧化鋅複合擔體銅觸媒。經由乾燥、鍛燒、還原等活化程序,使用氮吸附儀、程溫規劃還原(TPR)及N2O分解吸附,並配合熱重分析儀(TGA)、X射線繞射分析(XRD)、X射線光電子分析儀(XPS) 、掃描式電子顯微鏡(SEM)及穿透式電子顯微鏡(TEM),分別探討製程中的鍛燒程序、銅金屬在擔體上的還原特性及表面性質等,然後以甲醇部分氧化反應進行觸媒活性測試,找出有利於此一反應的最佳製備條件,最後並與商用二氧化矽所製備的複合擔體銅觸媒比較活性。本研究計畫預期的成果為:(1)加入另一擔體氧化鋅,評估稻殼灰分做為觸媒擔體的可行性,提供一種低成本的二元氧化物觸媒擔體,同時達到提升農業廢棄物的利用價值;(2)藉由製備程序的探討,了解銅金屬於稻殼灰分-氧化鋅擔體上的表面性質及其對甲醇部分氧化產氫的催化作用影響,以達到學術研究的目的。 ; Deposition-precipitation, Partial oxidation of methanol, Hydrogen Supported catalyst plays an important role in chemical and petroleum industries. However, in order to improve the catalytic reactions, further development of new support and suitable preparation method for modification of surface properties of metal atoms on support are becoming another feasible research work. We plan to refine rice husk ash-ZnO (amorphous silica more than 99wt% purity) to be support. The copper-containing catalysts are to be prepared by deposition-precipitation, and to be pretreated by drying, calcination and reduction procedure. During the procedure, the properties of the catalyst are to be investigated by employing BET, TGA, XRD, TEM, SEM, TPR, XPS, and dissociative adsorption of nitrous oxide, etc. In addition, copper-containing catalysts are to be evaluated in the reaction of partial oxidation of methanol. The test will show the reactivity of the support towards copper and the best condition of preparation procedure. The purposes of the project we desire are : (1)adding ZnO to develop a low-cost binary support material for copper catalysts. (2)providing information of the best preparation conditions of amorphous silica support copper-containing catalyst for partial oxidation of methanol. ; 研究期間 9708 ~ 9807
