화학공학소재연구정보센터
로그인 로그아웃 연락처 사이트맵
Journal of Industrial and Engineering Chemistry, Vol.16, No.2, 293-298, March, 2010
DOI10.1016/j.jiec.2010.01.036  Export Citation
Hemicelluloses obtaining from rapeseed cake residue generated in the biodiesel production process
I. Egues, M. Gonzalez Alriols, Z. Herseczki1, G. Marton1, and J. Labidi
  • Chemical and Environmental Engineering Department, University of the Basque Country, Escuela Polite´cnica Donostia-San Sebastia´n,Plaza Europa, 1, 20018, Donostia-San Sebastia´n, Spain
  • 1Cooperative Research Centre for Environmental and Information, Technology & Bioresource Group, University of Pannonia, Veszprem, Egyetem Str. 10, Hungary
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The processing of rapeseed oil seeds for biodiesel production generates huge amounts of lignocellulosic cake residue mainly composed by cellulose, hemicelluloses and lignin. In this work, the valorisation of these components, especifically the majoritary fraction, hemicelluloses, was studied. Hemicelluloses were extracted, purified and characterized by different techniques (FTIR, 1H NMR, 13C NMR, and GPC). Autohydrolysis and acid hydrolysis processes were applied to obtain sugar monomers and oligomers. Glucose and xylose were the main simple sugars in the obtained hydrolysates, representing 22.7% and 40.2% of total sugars content in the autohydrolysis hydrolysates and 27.7% and 36.6% in the acid hydrolysates respectively. Arabinose, galactose and mannose were present in relatively minor quantities.
Keywords:Biodiesel;Waste rapeseed;Hemicelluloses;Hydrolysis
  1. Shah S, Sharma S, Gupta MN, Energy Fuels, 18(1), 154 (2004)
  2. Uma BH, Kim YS, J. Ind. Eng. Chem., 15(1), 1 (2009)
  3. Anderson D, Masterson D, McDonald B, Sullivan L, in: Proceedings of the Chemistry and Technol. Conference, Renewable Energy Management Int. Palm Oil Conference (PIPOC), Putrajaya, Malasya (2003)
  4. Yuan X, Liu J, Zeng G, Shi J, Tong J, Huang G, Renew. Energy, 33, 1678 (2008)
  5. Lee KW, Yu JX, Mei JH, Yan L, Kim YW, Chung KW, J. Ind. Eng. Chem., 13(5), 799 (2007)
  6. Eriksson G, Hedman H, Bostrom D, Pettersson E, Backman R, Ohman M, Energy & Fuels, http://pubs.acs.org/doi/pdf/10.1021/ef900308r. (2009)
  7. Ozcimen D, Karaosmanoglu F, Renewable Energy, 29, 779 (2004)
  8. Culcuoglu E, Unay E, Karaosmanoglu F, Energy Sources, 24(4), 329 (2002)
  9. Chesson A, in: Haresign W, Cole DJA (Eds.), Recent Advances in Animal Nutrition, Butterworths, London, UK, 1987, p. 71.
  10. Glasser WG, Kaar WE, Jain RK, Sealey JE, Cellulose, 7, 299 (2000)
  11. Slominski BA, Campbell LD, J. Sci. Food Agric., 53, 175 (1990)
  12. Mosier N, Wyman C, Dale B, Elander R, Lee YY, Holtzapple M, Ladisch M, Bioresour. Technol., 96(6), 673 (2005)
  13. Spiridon I, Popa VI, in: Belgacem MN, Gandini A (Eds.), Monomers, Polymers and Composites from Renewable Resources, Elsevier, Amsterdam, 2008 (Chapter 13)
  14. Allen SG, Schulman D, Lichwa J, Antal MJ, Laser M, Lynd LR, Ind. Eng. Chem. Res., 40(13), 2934 (2001)
  15. Gao PF, Fan DD, Luo YE, Ma XX, Ma P, Hui JF, Zhu CH, Chin. J. Chem. Eng., 17(2), 350 (2009)
  16. Cara C, Ruiz E, Ballesteros I, Negro MJ, Castro E, Process Biochem., 41, 423 (2006)
  17. Tucker MP, Kim KH, Newman MM, Nguyen QA, Appl. Biochem. Biotechnol., 105, 165 (2003)
  18. Gabrielli I, Gatenholm P, Glasser WG, Jain RK, Kenne L, Carbohyd. Polym., 43, 367 (2000)
  19. Saska M, Ozer E, Biotechnol. Bioeng., 45(6), 517 (1995)
  20. Huang HJ, Ramaswamy S, Tschirner UW, Ramarao BV, Sep. Purif. Technol., 62(1), 1 (2008)
  21. Wise LE, Murphy M, D’Adieco AA, Paper Trade J., 122, 35 (1946)
  22. Rowell R, in: Proceedings of the 185th meeting of the American Chemical Society, Seattle, Washington, (1983), p. 70
  23. Sun XF, Sun RC, Tomkinson J, Baird MS, Carbohyd. Polym., 53, 483 (2003)
  24. Sun RC, Sun XF, Liu GQ, Fowler P, J. Tomkinson, Polym. Int., 51, 117 (2002)
  25. Rodrigues J, Puls J, Faix O, Pereira H, Holzforschung, 55, 265 (2001)
  26. Sun RC, Fang JM, Mott L, Bolton J, Holzforschung, 53, 253 (1999)
  27. Teleman A, Lundqvist J, Tjerneld F, Stalbrand H, Dahlman O, Carbohydr. Res., 329, 807 (2000)
  28. Sun XF, Xu F, Sun RC, Geng ZC, Fowler P, Baird MS, Carbohydr. Polym., 60, 15 (2005)
  29. Fang JM, Sun RC, Fowler P, Tomkinson J, Hill CAS, J. Appl. Polym. Sci., 79, 719 (2000)
  30. Fazilah A, Mohd Azemi MN, Karim AA, Norakma MN, J. Agric. Food Chem., 57, 1527 (2009)
  31. Thomsen MH, Thygesen A, Thomsen AB, Bioresour. Technol., 99(10), 4221 (2008)
  32. Zhang SP, Marechal F, Gassner M, Perin-Levasseur Z, Qi W, Ren ZW, Yan YJ, Favrat D, Energy Fuels, 23, 1759 (2009)
  33. Robinson J, Keating JD, Mansfield SD, Saddler JN, Enzyme Microb. Technol., 33(6), 757 (2003)
  34. Wedig CL, Jaster EH, Moore KJ, J. Agric. Food Chem., 35, 214 (1987)
  35. Neureiter M, Danner H, Madzingaidzo L, Miyafuji H, Thomasser C, Bvochora J, Bamusi S, Braun R, Chem. Biochem. Eng., 18, 55-63 (2004)
  36. Galbis JA, Garcıa-Martın MG, in: Belgacem MN, Gandini A (Eds.), Monomers, Polymers and Composites from Renewable Resources, Elsevier, Amsterdam, 2008(Chapter 5)