Chemistry and Industry of Forest Products ›› 2015, Vol. 35 ›› Issue (1): 145-150.doi: 10.3969/j.issn.0253-2417.2015.01.023
DING Ming-yue1, XIONG Wei1 2, TU Jun-ling1 2, ZHANG Qi1, WANG Tie-jun1, MA Long-long1, LI Yu-ping1
Received:
2013-12-23
Online:
2015-02-25
Published:
2015-03-05
Contact:
王铁军(1972-),教授,博士生导师,主要从事生物质能源开发利用研究;E-mail:wangtj@ms.giec.ac.cn。
E-mail:wangtj@ms.giec.ac.cn
CLC Number:
DING Ming-yue, XIONG Wei, TU Jun-ling, ZHANG Qi, WANG Tie-jun, MA Long-long, LI Yu-ping. Progress in Reforming Purification Technology of Biomass Fuel Gas[J]. Chemistry and Industry of Forest Products, 2015, 35(1): 145-150.
[1] 林伟刚,宋文立.丹麦生物质发电的现状和研究发展趋势[J].燃料化学学报,2005,33(6):650-655. LIN Wei-gang,SONG Wen-li.Power production from biomass in Denmark[J].Journal of Fuel Chemistry and Technology,2005,33(6):650-655. [2] 汪俊锋,常杰,阴秀丽,等.生物质气催化合成甲醇的研究[J].燃料化学学报,2005,33(1):58-61. WANG Jun-feng,CHANG Jie,YIN Xiu-li,et al.Catalytic synthesis of methanol from biomass-derived syngas[J].Journal of Fuel Chemistry and Technology,2005,33(1):58-61. [3] 赵先国,常杰,吕鹏梅,等.生物质流化床富氧气化的实验研究[J].燃料化学学报,2005,33(2):199-204. ZHAO Xian-guo,CHANG Jie,LV Peng-mei,et al.Biomass gasification under O2-rich gas in a fluidized bed reactor[J].Journal of Fuel Chemistry and Technology,2005,33(2):199-204. [4] CORELLA J,SANZ A.Modeling circulating fluidized bed biomass gasifiers:A pseudo-rigorous model for stationary state[J].Fuel Processing Technology,2005,86(9):1021-1053. [5] KINOSHITA C M,WANG Y,ZHOU J.Tar formation under different biomass gasification conditions[J].Journal of Analytical and Applied Pyrolysis,1994,29(2):169-181. [6] GIL J,CABALLERO M A,MARTÍN J A,et al.Biomass gasification with air in fluidized bed:Effect of in-bed use of dolomite under different operature conditions[J].Industrial and Engineering Chemistry Research,1999,38(11):4226-4235. [7] NARVÁEZE I,ORÍO A,AZNAR M P,et al.Biomass gasification with air in an atmospheric bubbling fluidized bed,Effect of six operational variables on the quality of produced raw gas[J].Industrial and Engineering Chemistry Research,1996,35(7):2110-2120. [8] YU Qi-zhuang,BRAGE C,CHEN Guan-xing,et al.Temperature impact on the formation of tar from biomass pyrolysis in a free-fall reactor[J].Journal of Analytical and Applied Pyrolysis,1997,40/41:481-489. [9] BRAGE C,YU Qi-zhuang,CHEN Guan-xing,et al.Tar evolution profiles obtained from gasification of biomass and coal[J].Biomass and Bioenergy,2000,18(1):87-91. [10] KNIGHT R A.Experience with raw gas analysis from pressurized gasification of biomass[J].Biomass and Bioenergy,2000,18(1):67-77. [11] MOILAENE A,SAVIHARJU K.Gasification reactivities of biomass fuels in pressurized conditions and product gas mixtures[C] //BRIDGWATER A V,BOOCOCK D G B.Developments in thermochemical biomass conversion.London:Blackie,1997:828-837. [12] HERGUIDO J,CORELLA J,GONZALEZ-SAIZ J.Steam gasification of lignocellulosic residues in a fluidized bed at a small pilot scale:Effect of the type of feedstock[J].Industrial and Engineering Chemistry Research,1992,31(5):1274-1282. [13] AZNAR M P,CORRELA J,GIL J,et al.Biomass gasification with steam and oxygen mixtures at pilot scale and with catalytic gas upgrading Part Ⅰ:Performance of the gasifier[C] //BRIDGWATER A V,BOOCOCK D G B.Developments in thermochemical biomass conversion.London:Blackie,1997:1194-1208. [14] MINKOVA V,MARINOV S P,ZANZI R,et al.Thermochemical treatment of biomass in a flow of steam or in a mixture of steam and carbon dioxide[J].Fuel Processing Technology,2000,62(1):45-52. [15] WALAWENDER W P,HOVELAND D A,FAN L T.Steam gasification of alpha cellulose in a fluidized bed reactor[C] //OVEREND R P,MILNE T A,MUDGE L K.Fundamentals of thermochemical biomass conversion.London:Elsevier Applied Science,1985:897-910. [16] CORELLA J,AZNAR M P,GIL J,et al.Biomass gasification in fluidized bed:Where to locate the dolomite to improve gasification[J].Energy and Fuels,1999,13(6):1122-1127. [17] RAPAGNÁ S,JAND N,KIENNEMANN A,et al.Steam-gasification of biomass in a fluidized-bed of olivine particles[J].Biomass and Bioenergy,2000,19(3):187-197. [18] BAKER E G,MUDGE L K,BROWN M D.Methanol and ammonia from biomass[J].Chemical Engineering Progress,1984,80(12):43-46. [19] YOSHINORI T,YAMAGUCHI T,YAMASAKI K,et al.Catalyst for steam gasification of wood to ethanol synthesis gas[J].Industrial and Engineering Chemistry Process Design and Development,1984,23(2):225-229. [20] AZNAR M P,CABALLERO M A,GIL J,et al.Commercial steam reforming catalysts to improve biomass gasification with steam-oxygen mixtures.2:Catalytic tar remove[J].Industrial and Engineering Chemistry Research,1998,37(1):2668-2680. [21] DELGADO J,AZNAR M P,CORELLA J.Biomass gasification with steam in fluidized bed:Effectiveness of CaO,MgO and CaO-MgO for hot gas cleaning[J].Industrial and Engineering Chemistry Research,1997,36(5):1535-1543. [22] HAUSERMAN W B.High-yield hydrogen production by catalytic gasification of coal or biomass[J].International Journal of Hydrogen Energy,1994,19(5):413-419. [23] MUDGE L K,BAKER E G,MITCHELL D H,et al.Catalytic steam gasification of biomass for methanol and methane production[J].The Journal of Solar Energy Engineering,1985,107(1):88-92. [24] ENCINAR J M,BELTRÁN F J,RAMIRO A,et al.Pyrolysis/gasification of agricultural residues by carbon dioxide in the presence of different additives:Influence of variables[J].Fuel Processing Technology,1998,55(3):219-233. [25] BRIDGWATER A V,KUESTER J L.Research in Thermochemical Biomass Conversion[M].London:Elsevier Science Publishers,1988:157. [26] ELLIOTT D C,BAKER E G,BUTNER R S,et al.Bench-scale reactor tests of low temperature,catalytic gasification of wet industrial wastes[J].Journal of Solar Energy Engineering,1993,115(1):52-56. [27] YAMAGUCHI T,YAMASAKI K,YOSHIDA O,et al.Deactivation and regeneration of catalyst for steam gasification of wood to methanol synthesis gas[J].Industrial & Engineering Chemistry Research,1986,25(2):239-243. [28] COURSON C,UDRON L,SWIERCZYHSKI D,et al.Hydrogen production from biomass gasification on nickel catalysts:Tests for dry reforming of methane[J].Catalysis Today,2002,76(1):75-86. [29] RICHARDSON S M,GRAY M R.Enhancement of residue hydroprocessing catalysts by doping with alkali metals[J].Energy & Fuels,1997,11(6):1119-1126. [30] BANGALA D N,ABATZOGLOU N,CHORNET E.Steam reforming of naphthalene on Ni-Cr/Al2O3 catalysts doped with MgO,TiO2 and La2O3[J].AICHE Journal,1998,44(4):927-936. [31] CHEN Yang-guang,TOMISHIGE K,YOKOYAMA K,et al.Catalytic performance and catalyst structure of nickel-magnesia catalysts for CO2 reforming of methane[J].Journal of Catalysis,1999,184(2):479-490. [32] BRADFORD M C J,VANNICE M A.Catalyst reforming of methane with carbon dioxide over nickel catalysts:Catalyst characterization and activity[J].Applied Catalysis A:General,1996,142(1):73-96. [33] CHEN Ping,ZHANG Hong-bin,LIN Guo-dong,et al.Development of coking-resistant Ni-based catalyst for partial oxidation and CO2-reforming of methane to syngas[J].Applied Catalysis A:General,1998,166(2):343-350. |
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