Liquid Phase Hydrogenation of Methyl Levulinate over Supported Ruthenium Metal Catalyst

被引:4
作者
Nadgeri, Jayprakash M. [1 ]
Hiyoshi, Norihito [1 ]
Yamaguchi, Aritomo [1 ]
Sato, Osamu [1 ]
Shirai, Masayuki [1 ]
机构
[1] Natl Inst Adv Ind Sci & Technol, Res Ctr Compact Chem Syst, Miyagino Ku, Sendai, Miyagi 9838551, Japan
来源
JOURNAL OF THE JAPAN PETROLEUM INSTITUTE | 2012年 / 55卷 / 06期
关键词
Biomass utilization; Liquid phase hydrogenation; Ruthenium catalyst; Methyl levulinate; gamma-Valerolactone; Graphite support; GAMMA-VALEROLACTONE; CONVERSION; BIOMASS; ACID; ESTERS; 1,4-PENTANEDIOL; CO2;
D O I
10.1627/jpi.55.376
中图分类号
TE [石油、天然气工业]; TK [能源与动力工程];
学科分类号
0807 ; 0820 ;
摘要
Low-temperature hydrogenation of methyl levulinate was studied over a graphite-supported ruthenium catalyst. Methyl levulinate introduced was completely hydrogenated and 65 % yield of methyl 4-hydroxyvalerate and 35 % yield of gamma-valerolactone were obtained at neat condition at 343 K. The yield of gamma-valerolactone did not increase with an increase in reaction time. The addition of water and levulinic acid enhanced the initial hydrogenation rate and final gamma-valerolactone yield. More than 99 % conversion to gamma-valerolactone was obtained over the graphite-supported ruthenium catalyst at 363 K by the addition of water and levulinic acid.
引用
收藏
页码:376 / 379
页数:4
相关论文
共 20 条
[1]   Maximising opportunities in supercritical chemistry:: the continuous conversion of levulinic acid to γ-valerolactone in CO2 [J].
Bourne, Richard A. ;
Stevens, James G. ;
Ke, Jie ;
Poliakoff, Martyn .
CHEMICAL COMMUNICATIONS, 2007, (44) :4632-4634
[2]   Catalytic Conversion of Biomass-Derived Carbohydrates into γ-Valerolactone without Using an External H2 Supply [J].
Deng, Li ;
Li, Jiang ;
Lai, Da-Ming ;
Fu, Yao ;
Guo, Qing-Xiang .
ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 2009, 48 (35) :6529-6532
[3]   Tunable copper-catalyzed chemoselective hydrogenolysis of biomass-derived γ-valerolactone into 1,4-pentanediol or 2-methyltetrahydrofuran [J].
Du, Xian-Long ;
Bi, Qing-Yuan ;
Liu, Yong-Mei ;
Cao, Yong ;
He, He-Yong ;
Fan, Kang-Nian .
GREEN CHEMISTRY, 2012, 14 (04) :935-939
[4]   Cu-ZrO2 nanocomposite catalyst for selective hydrogenation of levulinic acid and its ester to γ-valerolactone [J].
Hengne, Amol M. ;
Rode, Chandrashekhar V. .
GREEN CHEMISTRY, 2012, 14 (04) :1064-1072
[5]   Acetophenone hydrogenation over a Pd catalyst in the presence of H2O and CO2 [J].
Hiyoshi, Norihito ;
Sato, Osamu ;
Yamaguchi, Aritomo ;
Shirai, Masayuki .
CHEMICAL COMMUNICATIONS, 2011, 47 (41) :11546-11548
[6]   γ-Valerolactone -: a sustainable liquid for energy and carbon-based chemicals [J].
Horvath, Istvan T. ;
Mehdi, Hasan ;
Fabos, Viktoria ;
Boda, Laszlo ;
Mika, Laszlo T. .
GREEN CHEMISTRY, 2008, 10 (02) :238-242
[7]   Levulinic esters from the acid-catalysed reactions of sugars and alcohols as part of a bio-refinery [J].
Hu, Xun ;
Li, Chun-Zhu .
GREEN CHEMISTRY, 2011, 13 (07) :1676-1679
[8]   Towards 'bio-based' Nylon:: conversion of γ-valerolactone to methyl pentenoate under catalytic distillation conditions [J].
Lange, Jean-Paul ;
Vestering, Jan Z. ;
Haan, Rene J. .
CHEMICAL COMMUNICATIONS, 2007, (33) :3488-3490
[9]   Valeric Biofuels: A Platform of Cellulosic Transportation Fuels [J].
Lange, Jean-Paul ;
Price, Richard ;
Ayoub, Paul M. ;
Louis, Jurgen ;
Petrus, Leo ;
Clarke, Lionel ;
Gosselink, Hans .
ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 2010, 49 (26) :4479-4483
[10]   Catalytic synthesis of α-methylene-γ-valerolactone:: a biomass-derived acrylic monomer [J].
Manzer, LE .
APPLIED CATALYSIS A-GENERAL, 2004, 272 (1-2) :249-256
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