V_2O_5/C catalyst for liquid phase oxidation of glyoxal to glyoxylic acid 被引量：1

V_2O_5/C catalyst for liquid phase oxidation of glyoxal to glyoxylic acid

导出

摘要 A study of the catalytic activity of V2O5/C catalyst for the oxygen oxidation of glyoxal has been made, showing that glyoxylic acid can be formed without control of pH value and there is little oxalic acid from the excessive oxidation of glyoxylic acid. The studies of XRD and TEM have shown that V2O5 diffraction peaks gradually strengthen with the increase of the content of V2O5. With the content of 3% V2O5 and the calcination temperature of 573 K, V2O5/C catalyst displayed the best activity and selectivity. The conversion of glyoxal and the selectivity of glyoxylic acid reached 18.76% and 77.70% after 5 h, respectively. Moreover, V2O5/C catalyst showed small deactivation after recycling three times, which indicates that V2O5/C has a higher stability than noble metal catalysts in the reaction medium. A study of the catalytic activity of V2O5/C catalyst for the oxygen oxidation of glyoxal has been made, showing that glyoxylic acid can be formed without control of pH value and there is little oxalic acid from the excessive oxidation of glyoxylic acid. The studies of XRD and TEM have shown that V2O5 diffraction peaks gradually strengthen with the increase of the content of V2O5. With the content of 3% V2O5 and the calcination temperature of 573 K, V2O5/C catalyst displayed the best activity and selectivity. The conversion of glyoxal and the selectivity of glyoxylic acid reached 18.76% and 77.70% after 5 h, respectively. Moreover, V2O5/C catalyst showed small deactivation after recycling three times, which indicates that V2O5/C has a higher stability than noble metal catalysts in the reaction medium.

作者 NIU YuLan1,2 & LI RuiFeng1 1 Key Laboratory of Coal Science and Technology, Ministry of Education, Institute of Special Chemicals, Taiyuan University of Technology, Taiyuan 030024, China 2 Department of Chemical Engineering, Taiyuan Institute of Technology, Taiyuan 030008, China

出处《Science China Chemistry》 SCIE EI CAS 2009年第7期1057-1062,共6页 中国科学（化学英文版）

基金 Supported by the Technology Research and Development Project for University of Shanxi Province of China (Grant No. 20051272)

关键词 GLYOXAL glyoxylic ACID V2O5/C CATALYST glyoxal, glyoxylic acid, V2O5/C catalyst

分类号 O643.3 [理学—物理化学]

引文网络
相关文献

参考文献9

1Meester W J N,Maarseveen J H,Schoemaker H E,Hiemstra H,Rutjes Floris P J T.Glyoxylates as versatile building blocks for the synthesis of α-amino Acid and α-alkoxy acid derivatives via cationic intermediates. European Journal of Organic Chemistry . 2003
2Yu Lan Niu,Zheng Xu,Min Li,Rui Feng Li.Oxidation of glyoxal to glyoxylic acid by oxygen over V_2O_5/C catalyst[J].Chinese Chemical Letters,2008,19(2):245-248. 被引量：5
3G. Mattioda,Y. Christidis.Ullmann’s Encyclopedia of Industrial Chemistry. . 1989
4Gallezot P,Msantourne R,Christidis Y,et al.Catalytic oxidation of glyoxal to glyoxylic acid on platinum metals. Journal of Catalysis . 1992
5F. Alardin P. Ruiz B. Delmon and M. Devillers.Bismuth-promoted palladium catalysts for the selective oxidation of glyoxal into glyoxalic acid. Applied Catalysis . 2001
6F. Alardin B. Delmon P. Ruiz and M. Devillers.Stability of bimetallic Bi–Pd and Pb–Pd carbon-supported catalysts during their use in glyoxal oxidation. Catalysis Today . 2000
7DEFFERNEZ A,HERMANS S,DEVILLERS M.Bimetallic Bi-Pt,Ru-Pt and Ru-Pd and trimetallic catalysts for theselective oxidation of glyoxal into glyoxalic acid in aqueous phase. Applied Catalysis A General . 2005
8D. Rohan and B. K. Hodnett.Reactivity and stability of vanadium oxide catalysts for the oxidation of butan-2-ol by hydrogen peroxide. Applied Catalysis . 1997
9Velusamy S,Punniyamurthy T.Novel vanadium-catalyzed oxidation of alcohols to aldehydes and ketones under atmospheric oxygen. J.Org.Lett . 2004

二级参考文献7

1[1]W.J.N.Meester,J.H.van Maarseveen,H.E.Schoemaker,et al.Eur.J.Org.Chem.14(2003)2519.
2[2]G.Mattioda,Y.Christidis,Ullmann's Encyclopedia of Industrial Chemistry,vol.12(5),VCH,Weinheim,1989,p.495.
3[3]E Gallezot,R.de Mésantoume,Y.Christidis,et al.J.C.atal.133(1992)479.
4[4]E Alardin,P.Ruiz,B.Delmon,et al.Appl.Catal.A:Gen.215(2001)125,
5[5]F.Alardin,B.Delmon,P.Ruiz,et al.Catal.Today 61(2000)255.
6[6]A.Deffemez,S.Hermans,M.Devillers,Appl.Catal.A:Gen.282(2005)303.
7[7]H.Saito,S.Ohnaka,S.Fukuda,European Patent EP0142725B1(1987).

共引文献4

1周维友,孙富安,何明阳,陈群.乙醇酸甲酯法制备乙醛酸[J].化工进展,2011,30(11):2536-2539. 被引量：4
2董华青,祝远帅,杨华丰,高建荣.乙二醛在Pd_4团簇吸附、解离以及选择氧化[J].分子催化,2012,26(2):111-115. 被引量：2
3刘子忠,罗源,刘红霞,葛湘巍,刘东升.乙二醛与氧气在单重态势能面上反应机理的理论研究[J].内蒙古师范大学学报（自然科学汉文版）,2013,42(6):669-676. 被引量：2
4黄波,张新胜,钮东方,胡硕真.对称季铵碱的烷基链长度对草酸电还原反应的影响[J].电化学,2021,27(5):529-539.

同被引文献16

1熊林,李明玉,尹华,方建章.三维电极流化床对印染废水降解脱色处理[J].给水排水,2005,31(1):59-62. 被引量：15
2张亚平,韦朝海,吴超飞,钱湛.光Fenton反应的Ce-Fe/Al_2O_3催化剂制备及性能表征[J].中国环境科学,2006,26(3):320-323. 被引量：18
3汪晓军,林德贤,顾晓扬,董方.臭氧-曝气生物滤池处理酸性玫瑰红染料废水[J].环境污染治理技术与设备,2006,7(7):43-46. 被引量：44
4刘伟丽,张爱丽,周集体,贾保军,祝群力.电-多相催化反应器处理苯胺废水的研究[J].环境科学与技术,2006,29(8):93-95. 被引量：7
5矫彩山,孙艳,门雪燕,温青.电催化氧化技术处理难生化有机废水的研究现状及进展[J].环境科学与管理,2007,32(1):107-110. 被引量：20
6张芳,李光明,盛怡,胡惠康,吉洁.三维电解法处理苯酚废水的粒子电极研究[J].环境科学,2007,28(8):1715-1719. 被引量：24
7岳琳,王启山,石岩,何士忠.电-多相催化反应体系对垃圾渗滤液的降解[J].中国环境科学,2008,28(2):131-135. 被引量：14
8彭贤玉.电催化氧化处理染料废水的机理及研究进展[J].湖南理工学院学报（自然科学版）,2008,21(1):54-56. 被引量：6
9侯俭秋,崔阳.钛基修饰锡锑铅氧化物电极制备及性能研究[J].环境科学与技术,2008,31(8):117-119. 被引量：7
10张亚平,韦朝海.光Fenton氧化降解染料阳离子红GTL[J].中南大学学报（自然科学版）,2008,39(4):688-693. 被引量：17

引证文献1

1陈锦芳,张亚平,王俊毅.新型电-多相催化工艺去除阳离子红染料废水[J].中南大学学报（自然科学版）,2012,43(11):4559-4566. 被引量：1

二级引证文献1

1李沅知,王云燕,柴立元.三维电极反应器用负载型活性炭粒子电极的研究[J].安全与环境学报,2015,15(6):300-305. 被引量：10

1Zhang Yanhui,Sun Bo,Pei Juan,Geng Xiaotian,Wang Yunyou,Yan Jianbo.Synthesis, Characterization and Fluorescence Studies on Complexes of Terbium with Phenylglyoxylic Acid, 2,2-Dipyridine, 1,10-Phenanthroline, Triphenyl Phosphine Oxide[J].Journal of Rare Earths,2005,23(5):606-606.
2CHEN Hua,XU Xing-You,GAO Jian,YANG Xu-Jie,LU Lu-De,WANG Xin.Synthesis and Crystal Structure of a New Mononuclear Cadmium(Ⅱ) Cryptate Derived from the Condensation of Tri(2-aminoethyl)amine with Glyoxal[J].Chinese Journal of Structural Chemistry,2005,24(11):1276-1280.
3Gui Quan Zhang,Xin Zhang,Tao Lin Ting,Gong Min Qi.Synergetic effect of FeVO_4 andα-Fe_2O_3 in Fe-V-O catalysts for liquid phase oxidation of toluene to benzaldehyde[J].Chinese Chemical Letters,2012,23(2):145-148. 被引量：4
4张彦辉,颜剑波,裴娟,耿啸天,王云友,孙波.Synthesis, Characterization and Fluorescence of Terbium(Ⅲ) Complexes with Phenylglyoxylic Acid and 2,2-Dipyridine, 1,10-Phenanthroline, Triphenyl Phosphine Oxide[J].Journal of Rare Earths,2006,24(2):146-149. 被引量：2
5DENG Shu-Duan,LI Xiang-Hong,XIE Xiao-Guang,DU Guan-Ben.Reaction Mechanism,Synthesis and Characterization of Urea-glyoxal(UG) Resin[J].Chinese Journal of Structural Chemistry,2013,32(12):1773-1786. 被引量：8
6王庆伟,孙铭,王亚男,齐晓飞,李秀梅,刘博.Synthesis, Crystal Structure and Theoretical Calculations of a New Two-dimensional Co(Ⅱ) Coordination Polymer Based on Oxalic Acid and Bis(imidazol) Ligands[J].Chinese Journal of Structural Chemistry,2015,34(3):393-400.
7李玉芳,李明.乙二醛的生产技术概述及市场前景[J].中国石油和化工经济分析,2007(3):42-45. 被引量：1
8Wei Liang XU,Ji Dong LIU,Yan Ping SUN.Preparation of a Cyclomaltoheptaose(β-cyclodextrin) Cross-linked Chitosan Derivative via Glyoxal or Glutaraldehyde[J].Chinese Chemical Letters,2003,14(7):767-770. 被引量：6
9Gen Rong Qiang Xiang Mei Wu Qin Wang Wen Pei.Ultrasonicwave-assisted tandem-reaction for synthesis of symmetrical vicinal diamines[J].Chinese Chemical Letters,2007,18(12):1469-1470. 被引量：2
10XiKunYANG,JiaQiangWANG,TieDangWANG.Rate Constants for the Reactions of NO_3~.and SO_4^(._) Radicals with Oxalic Acid and Oxalate Anions in Aqueous Solution[J].Chinese Chemical Letters,2004,15(5):583-586. 被引量：1

Science China Chemistry

2009年第7期

浏览历史

内容加载中请稍等...