Preparation of Ru/CNTs Nano-material by Polyol Reduction-deposition Method and Its Catalytical Performance for Ammonia Decomposition

第一作者简介: 武小满, 女, 博士, 副教授, 从事催化化学研究及教学工作。E- mail xm anw u77@ yahoo. com. cn[中文文摘]通过乙二醇液相还原法将少量金属Ru沉积在碳纳米管(简称CNTs)上,TEM、XRD表征结果表明,该法明显提高了Ru在CNTs上的分散度,Ru微晶的粒径在3~4 nm。氨分解反应结果表明,采用乙二醇液相还原法在降低Ru负载量的同时还明显提高了Ru/CNTs的催化氨分解活性。在0.4 MPa、773 K、空速GHSV100%NH3=30 000 mL/(h.g)反应条件下,在液相还原法制备的4.2%Ru/CNTs催化剂上氨分解转化率可达48.5%,约为同条件下浸渍法所得5%Ru/CNTs的1.3倍,液相还原最佳配比5.7%Ru/γ-Al2O3的1.2倍。表观活化能测试结果显示用CNTs代替γ-Al2O3作为载体或分散相并不引起所负载Ru催化剂上NH3分解制H2反应的表观活化能发生明显变化。[英文文摘]Nowadays catalytic decomposition of ammonia is regarded as a method to obtain COfree hydrogen for its application in proton exchange membrane fuel cell.In this paper,with carbon nano-tubes(as CNTs) as substrate,a series of metallic Ru/CNTs were prepared using glycol reduction-deposition method which enhanced markedly dispersion of Ru on CNTs with the Rux0-crystallite size at 3~4 nm characterized through TEM and XRD.Under reaction conditions of 0.4 MPa,773 K and GHSV100%NH3 = 30 000 mL/(h·g),the observed NH3- decomposition conversion over the 4.2% Ru/CNTs catalyst(prepared through ethylene-glycol reduction-deposition) reached 48.5%, which was about 1.2 times as high as that of the 5.7% Ru /γ-Al2O3 catalyst prepared by the samemethod, and about 1.3 times as high as that of the 5% Ru /CNTs catalyst prepared by conventional incip ientw etnessmethod. Over the 4% Ru /CNTs catalys,t 100% o fNH3 - decomposition w as a ttained at 870 K; w hile over 5% Ru /CNTs prepared by conventional incipient wetness method, the reaction temperature as high as 900 K w as requ ired for the same (100%) conversion. At 870 K, the observed NH3 - decomposit ion conversion w as only 81. 7% over the 5. 7% Ru /γ-Al2O3 catalys.t It was experimentally also found that using the CNTs in place of γ-Al2O3 as support of them etalRu- catalyst did not cause amarked change in the apparent activation energy (Ea) for the reaction of NH3- decomposition to yieldH2.国家重点基础研究发展规划“973”项目(2005CB221400); 国家自然科学基金项目(20473063和20590364

Catalytical performance for ammonia decomposition on Ru/CNTs nano-material prepared by polyol reduction-deposition method

武小满( 1977-),女,副教授,主要研究方向:纳米材料和催化化学。 E-mail：[email protected][中文文摘]近年来各国对环境保护日益关注,为了减少甚至消除汽车、小型发电站等带来的污染,供给质子膜燃料电池(PEMFC)的现场制氢技术的研究受到关注。以含碳物质如甲醇、甲烷制得的氢气中不可避免含有COx(x=1,2),微量COx就会严重毒化电极,而氨分解制氢环境友好,经燃料电池单元综合利用后,尾气仅为N2和H2O并可直接排空,全过程不会产生有害气体,因此成为燃料电池用氢技术研究的热点。作为第二代氨合成催化剂的活性组分,纳米金属钌也是氨分解催化剂的研究重点[1];目前大部分的氨分解Ru催化剂主要采用浸渍法制得[1-3]。多元醇液相化学还原法[4-6]是近年来新发展起来的纳米金属催化剂/材料制备方法,因具有工艺简单,结果易重复,产物的粒径及其分布、形貌、纯度易控等特点而倍受人们的关注。另一方面,碳纳米管(CNTs)是一类新奇的碳素纳米材料,近年来被用作新型催化剂载体或促进剂的研究与日俱增,应用研究主要集中在液相和气相的选择加氢、脱氢、氢解等过程。Serp等[7]综述了CNTs在催化领域应用中的进展,认为其催化活性和选择性显示出令人鼓舞的前景。本文即采用乙二醇液相化学还原沉积法将少量Ru负载分散到CNTs上,制得一类Ru修饰碳纳米管复合材料,利用TEM、XRD 等技术对其进 行观测表征, 并以氨分解制氢作探针反应, 考察了 不同制备方法所得Ru /CNTs及添加碱/碱土金属 离子助剂对氨分解转化率的影响, 并讨论了CNTs 载体促进作用的本质。[英文文摘]A series of metallic Ru/CNTs were prepared using glycol reduction-deposition method. The results of TEM and XRD showed that metal Ru nanoparticles were quite uniform in shape and size(2~4 nm ) and well dispersed on the CNTs surface. The NH3-decom position conversion over Ru/CNTs catalyst prepared through ethylene glycol reduction-deposition was about 1.6 times as high as that of Ru/CNTs catalyst prepared by conventional incipientwetness method under the same reaction condition. The results demonstrated that NH3 decomposition over the Ru /CNTs catalyst using glycol reduction- deposition method with the Rux0-crystallite size at 3~4 nm displayed the highest reaction activity.While Rux0 particle size came dNH3 decom pos ition was m arked ly dropped. No ticeab ly, the promo ter o f K enhanced rem arkably catalytic activity of Ru /CNTs prepared using conven tiona l incipient w etness m ethod but few effect o f ones prepared using glycol reduction-deposition method.own to 2 nm and below, the conversion of NH3 decomposition was markedly dropped. Noticeably, the promoter of K enhanced remarkably catalytic activity of Ru/CNTs prepared using conventional incipient w etness m ethod but few effect of ones prepared using glycol reduction-deposition method.国家自然科学基金项目(20473063和20590364)资助; 校内青年科研基金(2009070)资

Research Report on the Textbook Construction and the Design for Textbook in an Organic Whole Way for Computer Science and Technology in Universities

1 引言自从计算机科学与技术学科专业教育诞生之日起,学术界就开始了长期的、连续的教材创作工作,陆续推出了各式各样的教材。在中国,伴随着高等学校学科专业教育的兴起,采用翻译、编译、编写、编著、引进、创作等多种形式,大量专业教材不断地进入这个领域。众所周知,无论是国内还是国外,长期以来学科专业教材的建设确实为培养一大批专业人才做出了巨大的贡献。然而,当人类进入21世纪,高等教育面临着学科不断深化和社会深刻变化带来的各种挑战时,如果我们怀着创新的冲动和理性的心态,带着冷峻的目光和挑剔的眼神审视高等学校学科专业办学现状和过去业已出版的大量教材,期望冲破高等学校学科专业教育现有的模式,通向自由、As the framework of theoretical systems on education for computer science and technology in universities is advanced by the project 13-22 group, it will be feasible to make the extensive mode and experienced running a major way into the intensive mode and scientific one way for the education of computer science and technology. One of the kernel problems is how to construct a series of advanced textbooks during implementation of the transformation. The problem is answered systematically and a design scheme for these textbooks in an organic whole way is given in this paper.教育部教育与教学改革13-22、C014;; 厦门大学科学基