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Citation: Liping Zheng, Shuixin Xia, Xiuyang Lu, Zhaoyin Hou. Transesterification of glycerol with dimethyl carbonate over calcined Ca-Al hydrocalumite[J]. Chinese Journal of Catalysis, ;2015, 36(10): 1759-1765. doi: 10.1016/S1872-2067(15)60915-9 shu

Transesterification of glycerol with dimethyl carbonate over calcined Ca-Al hydrocalumite

  • 1.

    a Key Lab of Applied Chemistry of Zhejiang Province, Department of Chemistry, Zhejiang University, Hangzhou 310028, Zhejiang, China;

  • Corresponding author: Zhaoyin Hou, 
  • Received Date: 23 March 2015
    Available Online: 16 May 2015

    Fund Project: 国家自然科学基金(21473155, 21273198, 21073159) (21473155, 21273198, 21073159) 浙江省自然科学基金(LZ12B03001). (LZ12B03001)

  • A series of Ca-Al hydrocalumite with different Ca/Al ratios (1-6) were synthesized and used in the transesterification of glycerol with dimethyl carbonate (DMC) to glycerol carbonate (GC) under mild conditions. The calcined Ca-Al hydrocalumites were active with a selectivity toward GC that reached 97% at 93% conversion of glycerol over the sample with Ca/Al = 2 at 70 ℃, 3 h, and DMC/glycerol = 3. The glycerol conversion depended mainly on the proportion of strong basic sites in the calcined Ca-Al catalysts. The Ca12Al14O33 phase in the calcined catalysts was stable, but CaO was lost in recycle experiments and thus brought deactivation.
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    1. [1]

      [1] Pagliaro M, Ciriminna R, Kimura H, Rossi M, Della Pina C. Angew Chem Int Ed, 2007, 46: 4434

    2. [2]

      [2] Zhou C H, Beltramini J N, Fan Y X, Lu G Q. Chem Soc Rev, 2008, 37: 527

    3. [3]

      [3] Bozell J J, Petersen G R. Green Chem, 2010, 12: 539

    4. [4]

      [4] Ide M S, Davis R J. Acc Chem Res, 2014, 47: 825

    5. [5]

      [5] Maris E P, Ketchie W C, Murayama M, Davis R J. J Catal, 2007, 251: 281

    6. [6]

      [6] Vasiliadou E S, Eggenhuisen T M, Munnik P, de Jongh P E, de Jong K P, Lemonidou A A. Appl Catal B, 2014, 145: 108

    7. [7]

      [7] Nakagawa Y, Tomishige K. Catal Sci Technol, 2011, 1: 179

    8. [8]

      [8] Wang S, Liu H C. Catal Lett, 2007, 117: 62

    9. [9]

      [9] Maris E P, Davis R J. J Catal, 2007, 249: 328

    10. [10]

      [10] Huang Z W, Cui F, Kang H X, Chen J, Zhang X Z, Xia C G. Chem Mater, 2008, 20: 5090

    11. [11]

      [11] Zope B N, Hibbitts D D, Neurock M, Davis R J. Science, 2010, 330: 74

    12. [12]

      [12] Nie R F, Liang D, Shen L, Gao J, Chen P, Hou Z Y. Appl Catal B, 2012, 127: 212

    13. [13]

      [13] Liu S S, Sun K Q, Xu B Q. ACS Catal, 2014, 4: 2226

    14. [14]

      [14] Katryniok B, Paul S, Dumeignil F. ACS Catal, 2013, 3: 1819

    15. [15]

      [15] Chai S H, Wang H P, Liang Y, Xu B Q. J Catal, 2007, 250: 342

    16. [16]

      [16] Chai S H, Wang H P, Liang Y, Xu B Q. Green Chem, 2007, 9: 1130

    17. [17]

      [17] Takagaki A, Iwatani K, Nishimura S, Ebitani K. Green Chem, 2010, 12: 578

    18. [18]

      [18] Liu P, Derchi M, Hensen E J M. Appl Catal A, 2013, 467: 124

    19. [19]

      [19] Liu P, Derchi M, Hensen E J M. Appl Catal B, 2014, 144: 135

    20. [20]

      [20] Sonnati M O, Amigoni S, Taffin de Givenchy E P, Darmanin T, Choulet O, Guittard F. Green Chem, 2013, 15: 283

    21. [21]

      [21] Shaikh A A G, Sivaram S. Chem Rev, 1996, 96: 951

    22. [22]

      [22] Vieville C, Yoo J W, Pelet S, Mouloungui Z. Catal Lett, 1998, 56: 245

    23. [23]

      [23] Aresta M, Dibenedetto A, Nocito F, Pastore C. J Mol Catal A, 2006, 257: 149

    24. [24]

      [24] Hammond C, Lopez-Sanchez J A, Ab Rahim M H, Dimitratos N, Jenkins R L, Carley A F, He Q, Kiely C J, Knight D W, Hutchings G J. Dalton Trans, 2011, 40: 3927

    25. [25]

      [25] Wang L G, Ma Y B, Wang Y, Liu S M, Deng Y Q. Catal Commun, 2011, 12: 1458

    26. [26]

      [26] Kim D W, Park K A, Kim M J, Kang D H, Yang J G, Park D W. Appl Catal A, 2014, 473: 31

    27. [27]

      [27] Zhang J, He D H. React Kinet, Mech Catal, 2014, 113: 375

    28. [28]

      [28] Jagadeeswaraiah K, Kumar C R, Prasad P S S, Loridant S, Lingaiah N. Appl Catal A, 2014, 469: 165

    29. [29]

      [29] Li H G, Gao D Z, Gao P, Wang F, Zhao N, Xiao F K, Wei W, Sun Y H. Catal Sci Technol, 2013, 3: 2801

    30. [30]

      [30] Zhang J, He D H. J Colloid Interf Sci, 2014, 419: 31

    31. [31]

      [31] Rokicki G, Rakoczy P, Parzuchowski P, Sobiecki M. Green Chem, 2005, 7: 529

    32. [32]

      [32] Ochoa-Gomez J R, Gomez-Jimenez-Aberasturi O, Maestro-Madurga B, Pesquera-Rodriguez A, Ramirez-Lopez C, Lorenzo-Ibarreta L, Torrecilla-Soria J, Villaran-Velasco M C. Appl Catal A, 2009, 366: 315

    33. [33]

      [33] Algoufi Y T, Hameed B H. Fuel Process Technol, 2014, 126: 5

    34. [34]

      [34] Parameswaram G, Srinivas M, Hari Babu B, Sai Prasad P S, Lingaiah N. Catal Sci Technol, 2013, 3: 3242

    35. [35]

      [35] Malyaadri M, Jagadeeswaraiah K, Prasad P S S, Lingaiah N. Appl Catal A, 2011, 401: 153

    36. [36]

      [36] Zheng L P, Xia S X, Hou Z T, Zhang M Y, Hou Z Y. Chin J Catal (郑丽萍, 夏水鑫, 侯召同, 张梦媛, 侯昭胤. 催化学报), 2014, 35: 310

    37. [37]

      [37] Pan S Y, Zheng L P, Nie R F, Xia S X, Chen P, Hou Z Y. Chin J Catal (潘赛勇, 郑丽萍, 聂仁峰, 夏水鑫, 陈平, 侯昭胤. 催化学报), 2012, 33: 1772

    38. [38]

      [38] Pfeiffer H, Ávalos-Rendón T, Lima E, Valente J S. J Environ Eng, 2011, 137: 1058

    39. [39]

      [39] Cavani F, Trifirò F, Vaccari A. Catal Today, 1991, 11: 173

    40. [40]

      [40] Chang P H, Lee T J, Chang Y P, Chen S Y. ChemSusChem, 2013, 6: 1076

    41. [41]

      [41] Gao L J, Teng G Y, Xiao G M, Wei R P. Biomass Bioenergy, 2010, 34: 1283

    42. [42]

      [42] Kuwahara Y, Tsuji K, Ohmichi T, Kamegawa T, Mori K, Yamashita H. Catal Sci Technol, 2012, 2: 1842

    43. [43]

      [43] Zhou J Z, Xu Z P, Qiao S Z, Liu J Y, Liu Q, Xu Y F, Zhang J, Qian G R. Appl Clay Sci, 2011, 54: 196

    44. [44]

      [44] Wang Q, Gao Y S, Zhang Z, Duan L H, Umar A, O'Hare D. Sci Adv Mater, 2013, 5: 411

    45. [45]

      [45] Zhang P, Qian G R, Shi H S, Ruan X X, Yang J, Frost R L. J Colloid Interf Sci, 2012, 365: 110

    46. [46]

      [46] Lv T F, Ma W, Xin G, Wang R, Xu J, Liu D M, Liu F J, Pan D C. J Hazard Mater, 2012, 237-238: 121

    47. [47]

      [47] Zhang J, Xu Y F, Qian G R, Xu Z P, Chen C, Liu Q. J Phy Chem C, 2010, 114: 10768

    48. [48]

      [48] Alvarez M G, Segarra A M, Contreras S, Sueiras J E, Medina F, Figureueras F. Chem Eng J, 2010, 161: 340

    49. [49]

      [49] Yuan Z L, Wang L N, Wang J H, Xia S X, Chen P, Hou Z Y, Zheng X M. Appl Catal B, 2011, 101: 431

    50. [50]

      [50] Martavaltzi C S, Lemonidou A A. Ind Eng Chem Res, 2008, 47: 9537

    51. [51]

      [51] Simanjuntak F S H, Kim T K, Lee S D, Ahn B S, Kim H S, Lee H. Appl Catal A, 2011, 401: 220

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