A thermodynamic analysis of hydrogen production via aqueous phase reforming of glycerol

Fuel Processing Technology

Volumn 134, Issue , 2015, Pages 107-115

  Seretis, A ^a   Tsiakaras, P ^a  

^a UNIVERSITY OF THESSALY   (Greece)

Author keywords

Aqueous phase reforming; Glycerol thermodynamic analysis; H2 production

Indexed keywords

CARBON; FREE ENERGY; GIBBS FREE ENERGY; GLYCEROL; HYDROGENATION; METHANATION; TEMPERATURE; THERMOANALYSIS; THERMODYNAMIC PROPERTIES; THERMODYNAMICS;

AQUEOUS-PHASE REFORMING; CARBON FORMATION; GIBBS FREE ENERGY MINIMIZATION; HIGH TEMPERATURE; OPERATING PARAMETERS; TEMPERATURE VALUES; THERMO DYNAMIC ANALYSIS; THERMODYNAMIC EQUILIBRIA;

HYDROGEN PRODUCTION;

EID: 84938688838     PISSN: 03783820     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.fuproc.2015.01.021     Document Type: Article

References (49)

1. F. Ma, and M. Hanna Biodiesel production: a review Bioresource Technology 70 1999 1 15
2. M.F. Milazzo, F. Spina, S. Cavallaro, and J.C.J. Bart Sustainable soy biodiesel Renewable & Sustainable Energy Reviews 27 2013 806 852
3. J.C.J. Bart, N. Palmeri, and S. Cavallaro Biodiesel Science and Technology: From Soil to Oil 1st ed. 2010 Woodhead Publishing Series in Energy
4. C.A.G. Quispe, C.J.R. Coronado, and J.A. Carvalho Jr. Glycerol: production, consumption, prices, characterization and new trends in combustion Renewable & Sustainable Energy Reviews 27 2013 475 493
5. M. Pagliaro, R. Ciriminna, H. Kimura, M. Rossi, and C. Della Pina From glycerol to value-added products Angewandte Chemie International Edition in English 46 2007 4434 4440
6. M. Stelmachowski Utilization of glycerol, a by-product of the transestrification process of vegetable oils: a review Review-Literature and Arts of the Americas 18 2011 9 30
7. P.D. Vaidya, and A.E. Rodrigues Glycerol reforming for hydrogen production: a review Chemical Engineering and Technology 32 2009 1463 1469
8. N.H. Tran, and G.S.K. Kannangara Conversion of glycerol to hydrogen rich gas Chemical Society Reviews 42 2013 9454 9479
9. J. Holladay, J. Hu, D. King, and Y. Wang An overview of hydrogen production technologies Catalysis Today 139 2009 244 260
10. R. Cortright, R. Davda, and J. Dumesic Hydrogen from catalytic reforming of biomass-derived hydrocarbons in liquid water Nature 418 2002 54 57
11. S. Adhikari, S.D. Fernando, and A. Haryanto Hydrogen production from glycerol: an update Energy Conversion and Management 50 2009 2600 2604
12. 2 for aqueous-phase-reforming of glycerol Catalysis Today 213 2013 58 64
13. D.Ö. Özgür, and B.Z. Uysal Hydrogen production by aqueous phase catalytic reforming of glycerine Biomass and Bioenergy 35 2011 822 826
14. P.V. Tuza, R.L. Manfro, N.F.P. Ribeiro, and M.M.V.M. Souza Production of renewable hydrogen by aqueous-phase reforming of glycerol over NieCu catalysts derived from hydrotalcite precursors Renewable Energy 50 2013 408 414
15. B. Meryemoglu, B. Kaya, S. Irmak, A. Hesenov, and O. Erbatur Comparison of batch aqueous-phase reforming of glycerol and lignocellulosic biomass hydrolysate Fuel 2012 2 5
16. A.O. Menezes, M.T. Rodrigues, A. Zimmaro, L.E.P. Borges, and M.A. Fraga Production of renewable hydrogen from aqueous-phase reforming of glycerol over Pt catalysts supported on different oxides Renewable Energy 36 2011 595 599
17. 2 Fuel Processing Technology 92 2011 330 335
18. Y. Guo, M.U. Azmat, X. Liu, Y. Wang, and G. Lu Effect of support's basic properties on hydrogen production in aqueous-phase reforming of glycerol and correlation between WGS and APR Applied Energy 92 2012 218 223
19. A. Ciftci, B. Peng, A. Jentys, J.A. Lercher, and E.J.M. Hensen Applied catalysis A: general support effects in the aqueous phase reforming of glycerol over supported platinum catalysts Applied Catalysis A: General 431-432 2012 113 119
20. Y. Guo, X. Liu, M.U. Azmat, W. Xu, J. Ren, Y. Wang, and G. Lu Hydrogen production by aqueous-phase reforming of glycerol over Ni-B catalysts International Journal of Hydrogen Energy 37 2012 227 234
21. 3 Modified by Mg, Zr, Ce or La Topics in Catalysis 49 2008 46 58
22. N. Luo, X. Fu, F. Cao, T. Xiao, and P. Edwards Glycerol aqueous phase reforming for hydrogen generation over Pt catalyst - effect of catalyst composition and reaction conditions Fuel 87 2008 3483 3489
23. K. Lehnert, and P. Claus Influence of Pt particle size and support type on the aqueous-phase reforming of glycerol Catalysis Communications 9 2008 2543 2546
24. J. Shabaker, G. Huber, and J. Dumesic Aqueous-phase reforming of oxygenated hydrocarbons over Sn-modified Ni catalysts Journal of Catalysis 222 2004 180 191
25. D.L. King, L. Zhang, G. Xia, A.M. Karim, D.J. Heldebrant, X. Wang, T. Peterson, and Y. Wang Aqueous phase reforming of glycerol for hydrogen production over Pt-Re supported on carbon Applied Catalysis B: Environmental 99 2010 206 213
26. G. Wen, Y. Xu, H. Ma, Z. Xu, and Z. Tian Production of hydrogen by aqueous-phase reforming of glycerol International Journal of Hydrogen Energy 33 2008 6657 6666
27. T. Pairojpiriyakul, W. Kiatkittipong, A. Soottitantawat, A. Arpornwichanop, N. Laosiripojana, and W. Wiyaratn et al. Thermodynamic analysis of hydrogen production from glycerol at energy self-sufficient conditions Canadian Journal of Chemical Engineering 9999 2011 1 8
28. X. Wang, M. Li, M. Wang, H. Wang, S. Li, and S. Wang et al. Thermodynamic analysis of glycerol dry reforming for hydrogen and synthesis gas production Fuel 88 2009 2148 2153
29. H. Wang, X. Wang, M. Li, S. Li, S. Wang, and X. Ma Thermodynamic analysis of hydrogen production from glycerol autothermal reforming International Journal of Hydrogen Energy 34 2009 5683 5690
30. S. Adhikari, S. Fernando, S. Gwaltney, S. Filipto, R. Markbricka, and P. Steele et al. A thermodynamic analysis of hydrogen production by steam reforming of glycerol International Journal of Hydrogen Energy 32 2007 2875 2880
31. 2 as carbon gasifying agent International Journal of Hydrogen Energy 37 2012 10101 10110
32. G. Yang, H. Yu, F. Peng, H. Wang, J. Yang, and D. Xie Thermodynamic analysis of hydrogen generation via oxidative steam reforming of glycerol Renewable Energy 36 2011 2120 2127
33. F.J. Gutiérrez Ortiz, P. Ollero, A. Serrera, and A. Sanz Thermodynamic study of the supercritical water reforming of glycerol International Journal of Hydrogen Energy 36 2011 8994 9013
34. X. Wang, N. Wang, M. Li, S. Li, S. Wang, and X. Ma Hydrogen production by glycerol steam reforming with in situ hydrogen separation: a thermodynamic investigation International Journal of Hydrogen Energy 35 2010 10252 10256
35. S. Authayanun, A. Arpornwichanop, Y. Patcharavorachot, W. Wiyaratn, and S. Assabumrungrat Hydrogen production from glycerol steam reforming for low- and high-temperature PEMFCs International Journal of Hydrogen Energy 36 2011 267 275
36. 2 adsorption International Journal of Hydrogen Energy 35 2010 7768 7777
37. N. Luo, F. Cao, X. Zhao, T. Xiao, and D. Fang Thermodynamic analysis of aqueous-reforming of polylols for hydrogen generation Fuel 86 2007 1727 1736
38. N. Luo, X. Zhao, F. Cao, T. Xiao, and D. Fang Thermodynamic study on hydrogen generation from different glycerol reforming processes Energy & Fuels 21 2007 3505 3512
39. S. Adhikari, S. Fernando, and A. Haryanto A comparative thermodynamic and experimental analysis on hydrogen production by steam reforming of glycerin Energy & Fuels 21 2007 2306 2310
40. H. Chen, Y. Ding, N.T. Cong, B. Dou, V. Dupont, M. Ghadiri, and P.T. Williams A comparative study on hydrogen production from steam-glycerol reforming: thermodynamics and experimental Renewable Energy 36 2011 779 788
41. X. Wang, M. Li, S. Li, H. Wang, S. Wang, and X. Ma Hydrogen production by glycerol steam reforming with/without calcium oxide sorbent: a comparative study of thermodynamic and experimental work Fuel Processing Technology 91 2010 1812 1818
42. F.C.L. Han Hydrogen production from aqueous phase reforming of glycerol: thermodynamic analysis and experimental validation Mater. Renew. Energy Environ. (ICMREE), 2011 Int. Conf. vol. 1 2011 255 258
43. D.-Y. Peng, and D.B. Robinson A new two-constant equation of state Industrial and Engineering Chemistry Fundamentals 15 1976 59 64
44. E. Neau, O. Hernández-Garduza, J. Escandell, C. Nicolas, and I. Raspo The Soave, Twu and Boston-Mathias alpha functions in cubic equations of state Fluid Phase Equilibria 276 2009 87 93
45. R.R. Davda, J.W. Shabaker, G.W. Huber, R.D. Cortright, and J.A. Dumesic A review of catalytic issues and process conditions for renewable hydrogen and alkanes by aqueous-phase reforming of oxygenated hydrocarbons over supported metal catalysts Applied Catalysis B: Environmental 56 2005 171 186
46. J. Xie, D. Su, X. Yin, C. Wu, and J. Zhu Thermodynamic analysis of aqueous phase reforming of three model compounds in bio-oil for hydrogen production International Journal of Hydrogen Energy 36 2011 15561 15572
47. R. Perry, D. Green, and J. Maloney Perry's Chemical Engineers' Handbook 8th ed. 2008 McGraw-Hill New York
48. K. Faungnawakij, R. Kikuchi, and K. Eguchi Thermodynamic analysis of carbon formation boundary and reforming performance for steam reforming of dimethyl ether Journal of Power Sources 164 2007 73 79
49. Y.-C. Lin Catalytic valorization of glycerol to hydrogen and syngas International Journal of Hydrogen Energy 38 2013 2678 2700