Hydrothermal conversion of glucose in a batch reactor. A detailed study of an experimental key-parameter: The heating time

Journal of Supercritical Fluids

Volumn 58, Issue 1, 2011, Pages 114-120

  Barbier, J ^a   Charon, N ^a   Dupassieux, N ^a   Loppinet Serani, A ^b   Mahe L ^a   Ponthus, J ^a   Courtiade, M ^a   Ducrozet, A ^a   Fonverne, A ^a   Cansell, F ^b  

^a IFP ENERGIES NOUVELLES   (France)

^b UNIVERSITÉ DE BORDEAUX   (France)

Author keywords

Glucose; Hydrothermal conversion; Multi technique analytical characterization; Reaction pathway; Subcritical water

Indexed keywords

BATCH REACTORS; CHEMICAL ANALYSIS; CONDENSATION; GLUCOSE; MASS SPECTROMETRY; SOLUTIONS;

ANALYTICAL APPROACH; ANALYTICAL CHARACTERIZATION; GLUCOSE CONVERSION; HYDROTHERMAL CONVERSION; REACTION PATHWAYS; SPECTROMETRIC TECHNIQUES; SUB-CRITICAL WATER; YIELDS OF PRODUCTS;

CONDENSATION REACTIONS;

EID: 79960020225     PISSN: 08968446     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.supflu.2011.05.004     Document Type: Article

References (33)

1. P.E. Savage, S. Gopalan, T.I. Mizan, C.J. Martino, and E.E. Brock Reactions at supercritical conditions: applications and fundamentals AIChE Journal 41 1995 1723 1778
2. O. Bobleter Hydrothermal degradation of polymers derived from plants Progress in Polymer Science 19 1994 797 841 (Pubitemid 124003807)
3. W.S.L. Mok, and M.J. Antal Uncatalyzed solvolysis of whole biomass hemicellulose by hot compressed liquid water Industrial & Engineering Chemistry Research 31 1992 1157 1161
4. L.J. Sealock, D.C. Elliott, E.G. Baker, and R.S. Butner Chemical processing in high-pressure aqueous environments. 1. Historical perspective and continuing developments Industrial & Engineering Chemistry Research 32 1993 1535 1541 (Pubitemid 23689986)
5. F. Goudriaan, and D.G.R. Peferoen Liquid fuels from biomass via a hydrothermal process Chemical Engineering Science 45 1990 2729 2734
6. A. Loppinet-Serani, C. Aymonier, and F. Cansell Supercritical water for environmental technologies Journal of Chemical Technology and Biotechnology 85 2010 583 589
7. H. Ando, T. Sakaki, T. Kokusho, M. Shibata, Y. Uemura, and Y. Hatate Decomposition behavior of plant biomass in hot-compressed water Industrial & Engineering Chemistry Research 39 2000 3688 3693
8. S. Karagoz, T. Bhaskar, A. Muto, and Y. Sakata Comparative studies of oil compositions produced from sawdust, rice husk, lignin and cellulose by hydrothermal treatment Fuel 84 2005 875 884
9. A. Kruse, and A. Gawlik Biomass conversion in water at 330-410 °C and 30-50 MPa. Identification of key compounds for indicating different chemical reaction pathways Industrial & Engineering Chemistry Research 42 2003 267 279 (Pubitemid 36119850)
10. E. Kamio, S. Takahashi, H. Noda, C. Fukuhara, and T. Okamura Liquefaction of cellulose in hot compressed water under variable temperatures Industrial & Engineering Chemistry Research 45 2006 4944 4953 (Pubitemid 44106299)
11. M. Sasaki, Z. Fang, Y. Fukushima, T. Adschiri, and K. Arai Dissolution and hydrolysis of cellulose in subcritical and supercritical water Industrial & Engineering Chemistry Research 39 2000 2883 2890 (Pubitemid 30646653)
12. T.M. Aida, Y. Sato, M. Watanabe, K. Tajima, T. Nonaka, H. Hattori, and K. Arai Dehydration of d-glucose in high temperature water at pressures up to 80 MPa The Journal of Supercritical Fluids 40 2007 381 388 (Pubitemid 46330693)
13. W.J. Catallo, T.F. Shupe, J.L. Comeaux, and T. Junk Transformation of glucose to volatile and semi-volatile products in hydrothermal (HT) systems Biomass and Bioenergy 34 2010 1 13
14. B.M. Kabyemela, T. Adschiri, R.M. Malaluan, and K. Arai Glucose and fructose decomposition in subcritical and supercritical water: detailed reaction pathway, mechanisms, and kinetics Industrial & Engineering Chemistry Research 38 1999 2888 2895 (Pubitemid 29396426)
15. Y. Matsumura, S. Yanachi, and T. Yoshida Glucose decomposition kinetics in water at 25 MPa in the temperature range of 448-673 K Industrial & Engineering Chemistry Research 45 2006 1875 1879
16. Z. Srokol, A.G. Bouche, A. van Estrik, R.C.J. Strik, T. Maschmeyer, and J.A. Peters Hydrothermal upgrading of biomass to biofuel; studies on some monosaccharide model compounds Carbohydrate Research 339 2004 1717 1726 (Pubitemid 38829499)
17. D. Knezevic, W.P.M. van Swaaij, and S.R.A. Kersten Hydrothermal conversion of biomass. I. Glucose conversion in hot compressed water Industrial & Engineering Chemistry Research 48 2009 4731 4743
18. 3 Industrial & Engineering Chemistry Research 42 2003 3516 3521 (Pubitemid 36875526)
19. Z. Fang, T. Sato, J. Smith, H. Inomata, K. Arai, and J.A. Kozinski Reaction chemistry and phase behavior of lignin in high-temperature and supercritical water Bioresource Technology 99 2008 3424 3430 (Pubitemid 351754876)
20. M. Saisu, T. Sato, M. Watanabe, T. Adschiri, and K. Arai Conversion of lignin with supercritical water-phenol mixtures Energy & Fuels 17 2003 922 928
21. Wahyudiono, M. Sasaki, and M. Goto Recovery of phenolic compounds through the decomposition of lignin in near and supercritical water Chemical Engineering and Processing: Process Intensification 47 2008 1609 1619 (Pubitemid 351814738)
22. G. Gonzalez, J. Salvado, and D. Montane Reactions of vanillic acid in sub- and supercritical water The Journal of Supercritical Fluids 31 2004 57 66
23. J.R. Lawson, and M.T. Klein Influence of water on guaiacol pyrolysis Industrial & Engineering Chemistry Fundamentals 24 1985 203 208
24. V. Roberts, S. Fendt, A.A. Lemonidou, X. Li, and J.A. Lercher Influence of alkali carbonates on benzyl phenyl ether cleavage pathways in superheated water Applied Catalysis B: Environmental 95 2010 71 77
25. Wahyudiono, M. Sasaki, and M. Goto Conversion of biomass model compound under hydrothermal conditions using batch reactor Fuel 88 2009 1656 1664
26. M.E. Himmel Biomass Recalcitrance - Deconstructing the Plant Cell Wall for Bioenergy 2008 Blackwell Publishing Ltd. Oxford, UK
27. A. Loppinet-Serani, C. Aymonier, and F. Cansell Current and foreseable applications of supercritical water for energy and the environment ChemSusChem 1 2008 486 503
28. A. Kruse, and E. Dinjus Hot compressed water as reaction medium and reactant: properties and synthesis reactions The Journal of Supercritical Fluids 39 2007 362 380 (Pubitemid 44708633)
29. A. Kruse, and E. Dinjus Hot compressed water as reaction medium and reactant. 2. Degradation reactions The Journal of Supercritical Fluids 41 2007 361 379 (Pubitemid 46661145)
30. P.E. Savage Organic chemical reactions in supercritical water Chemical Reviews 99 1999 603 622
31. Y. Yu, and H. Wu Understanding the primary liquid products of cellulose hydrolysis in hot-compressed water at various reaction temperatures Energy & Fuels 24 2010 1963 1971
32. M. Watanabe, Y. Aizawa, T. Iida, C. Levy, T.M. Aida, and H. Inomata Glucose reactions within the heating period and the effect of heating rate on the reactions in hot compressed water Carbohydrate Research 340 2005 1931 1939 (Pubitemid 41033058)
33. A. Sinag, A. Kruse, and J. Rathert Influence of the heating rate and the type of catalyst on the formation of key intermediates and on the generation of gases during hydropyrolysis of glucose in supercritical water in a batch reactor Industrial & Engineering Chemistry Research 43 2004 502 508 (Pubitemid 38090818)