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Energy Sources, Part A: Recovery, Utilization, and Environmental Effects Volume 30, 2008 - Issue 6
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Original Articles

Hydrogen-Rich Gas Production from Biomass via Pyrolysis and Gasification Processes and Effects of Catalyst on Hydrogen Yield

M. Balat Sila Science, University Mah, Trabzon, Turkey
Pages 552-564 | Published online: 05 Feb 2008

References

  • Balat , M. and Ozdemir , N. 2005 . New and renewable hydrogen production processes . Energy Sources , 27 : 1285 – 1298 .
  • Caglar , A. and Ozmen , H. 2000 . Hydrogen: As an attractive fuel in future . Energy Edu. Sci. Technol. , 6 : 1 – 18 .
  • Caglar , A. and Demirbas , A. 2002 . Hydrogen rich gas mixture from olive husk via pyrolysis . Energy Convers. Manage. , 43 : 109 – 117 .
  • Corte , P. , Lacoste , C. and Traverse , J. P. 1985 . Gasification and catalytic conversion of biomass by flash pyrolysis . J. Anal. Appl. Pyrolysis , 7 : 323 – 335 .
  • Demirbas , A. and Caglar , A. 1998 . Catalytic reforming of biomass and heavy oil residues to hydrogen . Energy Edu. Sci. Technol. , 1 : 45 – 52 .
  • Demirbas , A. 2000 . Mechanisms of liquefaction and pyrolysis reactions of biomass . Energy Convers. Manage. , 41 : 633 – 646 .
  • Demirbas , A. 2002a . Gaseous products from biomass by pyrolysis and gasification: Effects of catalyst on hydrogen yield . Energy Convers. Manage. , 43 : 897 – 909 .
  • Demirbas , A. 2002b . Hydrogen production from biomass by the gasification process . Energy Sources , 24 : 59 – 68 .
  • Demirbas , A. 2004a . Hazelnut shell to hydrogen-rich gaseous products via catalytic gasification process . Energy Sources , 26 : 25 – 33 .
  • Demirbas , A. 2004b . Hydrogen-rich gas from fruit shells via supercritical water extraction . Int. J. Hydrogen Energy , 29 : 1237 – 1243 .
  • Demirbas , M. F. 2004c . Producing hydrogen from biomass via non-conventional processes . Energy Explor. Exploit. , 22 : 225 – 233 .
  • Demirbas , A. 2004d . Conversion of agricultural residues to fuel products via supercritical fluid extraction . Energy Sources , 26 : 1095 – 1103 .
  • Demirbas , A. and Arin , G. 2004 . Hydrogen from biomass via pyrolysis: Relationships between yield of hydrogen and temperature . Energy Sources , 26 : 1061 – 1069 .
  • Demirbas , A. 2005a . Hydrogen production via pyrolytic degradation of agricultural residues . Energy Sources , 27 : 769 – 775 .
  • Demirbas , A. 2005b . Thermochemical conversion of hazelnut shell to gaseous products for production of hydrogen . Energy Sources , 27 : 339 – 347 .
  • Demirbas , A. 2005c . Hydrogen production from biomass via supercritical water extraction . Energy Sources , 27 : 1409 – 1417 .
  • Demirbas , M. F. 2006 . hydrogen from various biomass species via pyrolysis and steam gasification processes . Energy Sources , 28 : 245 – 252 .
  • Efendi , A. 2004 . Partly chemical analysis of biofuel from beech wood via pyrolysis in alkali medium . Energy Edu. Sci. Technol. , 14 : 21 – 34 .
  • Eroğlu , E. , Gunduz , U. , Yucel , M. , Turker , L. and Eroğlu , I. 2004 . Photobiological hydrogen production by using olive mill wastewater as a sole substrate source . Int. J. Hydrogen Energy , 29 : 163 – 171 .
  • Hanaoka , T. , Yoshida , T. , Fujimoto , S. , Kamei , K. , Harada , M. , Suzuki , Y. , Hatano , H. , Yokoyama , S. and Minowa , T. 2005 . Hydrogen production from woody biomass by steam gasification using a CO2 sorbent . Biomass Bioenergy , 28 : 63 – 68 .
  • Hao , X. H. , Guo , L. J. , Mao , X. , Zhang , X. M. and Chen , X. J. 2003 . Hydrogen production from glucose used as a model compound of biomass gasified in supercritical water . Int. J. Hydrogen Energy , 28 : 55 – 64 .
  • Kucuk , M. M. and Tunc , M. 1999 . Supercritical fluid extraction of biomass . Energy Edu. Sci. Technol. , 2 : 1 – 5 .
  • Lv , P. , Chang , J. , Wang , T. , Fu , Y. and Chen , Y. 2004 . Hydrogen-rich gas production from biomass catalytic gasification . Energy Fuels , 18 : 228 – 233 .
  • Maschio , G. , Lucchesi , A. and Stoppato , G. 1994 . Production of syngas from biomass . Bioresour. Technol. , 48 : 119 – 126 .
  • Matsumura , Y. and Minowa , T. 2004 . Fundamental design of a continuous biomass gasification process using a supercritical water fluidized bed . Int. J. Hydrogen Energy , 29 : 701 – 707 .
  • Merida , W. , Maness , P. C. , Brown , R. C. and Levin , D. B. 2004 . Enhanced hydrogen production from indirectly heated, gasified biomass, and removal of carbon gas emissions using a novel biological gas reformer . Int. J. Hydrogen Energy , 29 : 283 – 290 .
  • Midilli , A. , Olgun , H. and Ayhan , T. 2000 . Solar hydrogen production from hazelnut shells . Int. J. Hydrogen Energy , 25 : 723 – 732 .
  • Midilli , A. , Dogru , M. , Howarth , C. R. and Ayhan , T. 2001 . Hydrogen production from hazelnut shell by applying air-blown downdraft gasification technique . Int. J. Hydrogen Energy , 26 : 29 – 37 .
  • Midilli , A. , Dogru , M. , Akay , G. and Howarth , C. R. 2002 . Hydrogen production from sewage sludge via a fixed bed gasifier product gas . Int. J. Hydrogen Energy , 27 : 1035 – 1041 .
  • Moitra , N. 2004 . An insight into the oil prone precursors of fossil fuels for selection of an exine-rich, high hydrogen biomass, its pyrolysis, and product evaluation as fuel . Energy Sources , 26 : 1363 – 1368 .
  • Nath , K. and Das , D. 2003 . Hydrogen from biomass . Curr. Sci. , 85 : 265 – 271 .
  • Patil , K. Z. 1987 . Hydrogen . Chem. Age India , 38 : 519 – 527 .
  • Penner , S. S. 2006 . Steps toward the hydrogen economy . Energy , 31 : 33 – 43 .
  • Saxena , S. K. 2003 . Hydrogen production by chemically reacting species . Int. J. Hydrogen Energy , 28 : 49 – 53 .
  • Sime , R. , Kuehni , J. , D'Souza , L. , Elizondo , E. and Biollaz , S. 2003 . The redox process for producing hydrogen from woody biomass . Int. J. Hydrogen Energy , 28 : 491 – 498 .
  • Veziroğlu , T. 1975 . Hydrogen Energy, Part A , New York : Plenum .
  • Wang , D. , Czernik , S. , Montana , D. , Mann , M. and Chaornet , E. 1997 . Biomass to hydrogen via fast pyrolysis and catalytic steam reforming of the pyrolysis oil or its fractions . Ind. Eng. Chem. Res. , 36 : 1507 – 1518 .
  • Yildiz , B. and Kazimi , M. S. 2006 . Efficiency of hydrogen production systems using alternative nuclear energy technologies . Int. J. Hydrogen Energy , 31 : 77 – 92 .

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