[1] 瞿婷婷. 生物质热解提质转化为高品位液体的生命周期评价[D]. 南京:东南大学硕士学位论文,2012.
[2] 王夺,刘运权. 生物质气化技术及焦油裂解催化剂的研究进展[J]. 生物质化学工程,2012,46(2):39-47.
[3] ZHANG B,ZHANG L,YANG Z,et al. An experiment study of biomass steam gasification over NiO/Dolomite for hydrogen-rich gas production[J]. International Journal of Hydrogen Energy,2016,42(1):76-85.
[4] PEDROSO D T,MACHÍN E B,SILVEIRA J L,et al. Experimental study of bottom feed updraft gasifier[J]. Renewable Energy,2013,57(3):311-316.
[5] 曹小玲,蒋绍坚,吴创之,等. 高温空气发生器热态实验研究[J]. 中国电机工程学报,2005,25(2):112-116.
[6] UMEKI K,NAMIOKA T,YOSHIKAWA K. Analysis of an updraft biomass gasifier with high temperature steam using a numerical model[J]. Applied Energy,2012,90(1):38-45.
[7] DONAJ P. Conversion of biomass and waste using highly preheated agents for materials and energy recovery[D]. Stockholm:Doctoral Disseration of Royal Institute of Technology,2011.
[8] SUTTON D,KELLEHER B,ROSS J R H. Review of literature on catalysts for biomass gasification[J]. Fuel Processing Technology,2001,73(3):155-173.
[9] KUMAR A,JONES D D,HANNA M A. Thermochemical biomass gasification:A review of the current status of the technology[J]. Energies,2009,2(3):556-581.
[10] 谢玉荣,沈来宏,肖军,等. 生物质催化气化重整制取富氢气体的实验研究[J]. 西安交通大学学报,2008,42(5):634-638.
[11] 魏良元. 生物质钙基催化水蒸气气化制氢特性研究[D]. 武汉:华中科技大学硕士学位论文,2014.
[12] 王贵路. 50kW生物质气化发电机组的研制[D]. 鞍山:辽宁科技大学硕士学位论文,2014.
[13] GUSTA E,DALAI A K,UDDIN M A,et al. Catalytic decomposition of biomass tars with dolomites[J]. Energy & Fuels,2009,23(4):2264-2272.
[14] YU Q Z,BRAGE C,NORDGREEN T,et al. Effects of Chinese dolomites on tar cracking in gasification of birch[J]. Fuel,2009,88(10):1922-1926.
[15] GONZÁLEZ J F,ROMÁN S,BRAGADO D,et al. Investigation on the reactions influencing biomass air and air/steam gasification for hydrogen production[J]. Fuel Processing Technology,2008,89(8):764-772.
[16] HU G,XU S,LI S,et al. Steam gasification of apricot stones with olivine and dolomite as downstream catalysts[J]. Fuel Processing Technology,2006,87(5):375-382.
[17] 马承荣. 白云石对稻草水蒸气气化特性的影响[J]. 生物质化学工程,2016,50(1):45-49.
[18] KUHN J N,ZHAO Z,FELIX L G,et al. Olivine catalysts for methane-and tar-steam reforming[J]. Applied Catalysis B:Environmental,2008,81(1/2):14-26.
[19] ŚWIERCZYŃSKI D,LIBS S,COURSON C,et al. Steam reforming of tar from a biomass gasification process over Ni/olivine catalyst using toluene as a model compound[J]. Applied Catalysis B:Environmental,2007,74(3/4):211-222.
[20] ŚWIERCZYŃSKI D,COURSON C,KIENNEMANN A. Study of steam reforming of toluene used as model compound of tar produced by biomass gasification[J]. Chemical Engineering and Processing:Process Intensification,2008,47(3):508-513.
[21] VIRGINIE M,ADÁNEZ J,COURSON C,et al. Effect of Fe-olivine on the tar content during biomass gasification in a dual fluidized bed[J]. Applied Catalysis B:Environmental,2012,121/122:214-222.
[22] ANIS S,ZAINAL Z A. Tar reduction in biomass producer gas via mechanical, catalytic and thermal methods:A review[J]. Renewable and Sustainable Energy Reviews,2011,15(5):2355-2377.
[23] ZHANG R,BROWN R C,SUBY A,et al. Catalytic destruction of tar in biomass derived producer gas[J]. Energy Conversion and Management,2004,45(7/8):995-1014.
[24] LV P,YUAN Z,WU C,et al. Bio-syngas production from biomass catalytic gasification[J]. Energy Conversion and Management,2007,48(4):1132-1139.
[25] PFEIFER C,HOFBAUER H. Development of catalytic tar decomposition downstream from a dual fluidized bed biomass steam gasifier[J]. Powder Technology,2008,180(1/2):9-16.
[26] WANG L,LI D,KOIKE M,et al. Catalytic performance and characterization of Ni-Co catalysts for the steam reforming of biomass tar to synthesis gas[J]. Fuel,2013,112:654-661.
[27] SATO K,NAGAOKA K,NISHIGUCHI H,et al. N-C4H10 autothermal reforming over MgO-supported base metal catalysts[J]. International Journal of Hydrogen Energy,2009,34(1):333-342.
[28] MOON D J. Hydrogen production by catalytic reforming of liquid hydrocarbons[J]. Catalysis Surveys from Asia,2010,15(1):25-36.
[29] IWASA N,YAMANE T,TAKEI M,et al. Hydrogen production by steam reforming of acetic acid:Comparison of conventional supported metal catalysts and metal-incorporated mesoporous smectite-like catalysts[J]. International Journal of Hydrogen Energy,2010,35(1):110-117.
[30] HE L,BERNTSEN H,OCHOA-FERNÁNDEZ E,et al. Co-Ni catalysts derived from hydrotalcite-like materials for hydrogen production by ethanol steam reforming[J]. Topics in Catalysis,2009,52(3):206-217.
[31] WANG L,LI D,KOIKE M,et al. Catalytic performance and characterization of Ni-Fe catalysts for the steam reforming of tar from biomass pyrolysis to synthesis gas[J]. Applied Catalysis A:General,2011,392(1/2):248-255.
[32] LIU H,CHEN T,ZHANG X,et al. Effect of additives on catalytic cracking of biomass gasification tar over a nickel-based catalyst[J]. Chinese Journal of Catalysis,2010,31(4):409-414.
[33] LI J,YAN R,XIAO B,et al. Development of nano-NiO/Al2O3 catalyst to be used for tar removal in biomass gasification[J]. Environmental Science Technology,2008,42(16):6224-6229.
[34] LI J,LIU J,LIAO S,et al. Hydrogen-rich gas production by air-steam gasification of rice husk using supported nano-NiO/γ-Al2O3 catalyst[J]. International Journal of Hydrogen Energy,2010,35(14):7399-7404.
[35] CHAN F L,TANKSALE A. Review of recent developments in Ni-based catalysts for biomass gasification[J]. Renewable and Sustainable Energy Reviews,2014,38(5):428-438.
[36] SHANMUGANANDAM K,RAMANAN M V,PREMNATH S,et al. Tar mitigation in biomass gasifiers using nano-structured Ni/SiO2 catalyst:An experimental study[J]. Progress in Industrial Ecology,An International Journal,2015,9(2):182-190.
[37] NISHIKAWA J,NAKAMURA K,ASADULLAH M,et al. Catalytic performance of Ni/CeO2/Al2O3 modified with noble metals in steam gasification of biomass[J]. Catalysis Today,2008,131(1):146-155.
[38] COLBY J L,WANG T,SCHMIDT L D. Steam reforming of benzene as a model for biomass-derived syngas tars over Rh-based catalysts[J]. Energy & Fuels,2010,24(2):1341-1346.
[39] FURUSAWA T,SAITO K,KORI Y,et al. Steam reforming of naphthalene/benzene with various types of Pt-and Ni-based catalysts for hydrogen production[J]. Fuel,2013,103(1):111-121.
[40] DAGLE V L,DAGLE R,KOVARIK L,et al. Steam reforming of hydrocarbons from biomass-derived syngas over MgAl2O4-supported transition metals and bimetallic IrNi catalysts[J]. Applied Catalysis B:Environmental,2016,184:142-152.
[41] PHUPHUAKRAT T,NAMIOKA T,YOSHIKAWA K. Tar removal from biomass pyrolysis gas in two-step function of decomposition and adsorption[J]. Applied Energy,2010,87(7):2203-2211.
[42] HASEGAWA T,TANAKA R. High temperature air combustion. Revolution in combustion technology. (Part I New findings on high temperature air combutions.)[J]. JSME International Journal Series B,1998,41(4):1079-1084.
[43] YOSHIKAWA K. Present status and future plan of CREST MEET project[C]//Proceeding of the 2nd International High Temperature Air Combustion Symposium. Taiwan:[s.n.],1999:A1-1.
[44] PIAN C,GANNON R,NORTON O,et al. Advanced gasifier design for low rank coals and waste-derived fuels[C]//37th Aerospace Sciences Meetiong and Exhibit. Reno:[s.n.],1999.
[45] PIAN C,YOSHIKAWA K. Performance of biomass-fueled high-temperature air-blown gasification systems[C]//CREST International Symposium on High Temperature Air Combustion and Gasification. 2000:A1-1-9.
[46] 曹小玲,苏明,刘永文,等. 高温空气发生器实验台的研制[J]. 太阳能学报,2005,26(3):97-101.
[47] 张灿,杨伟锋,岂斌,等. 木屑高温空气气化实验研究[J]. 能源工程,2006(6):46-49.
[48] 罗玉和,楼波,马晓茜. 高温空气发生器蓄热体换热性能的实验研究[J]. 工业炉,2005,27(6):9-11,23.
[49] 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 removal[J]. Industrial & Engineering Chemistry Research,1998,37(7):2668-2680.
[50] PONZIO A,KALISZ S,BLASIAK W. Effect of operating conditions on tar and gas composition in high temperature air/steam gasification(HTAG) of plastic containing waste[J]. Fuel Processing Technology,2006,87(3):223-233.
[51] SKOULOU V,KANTARELIS E,ARVELAKIS S,et al. Effect of biomass leaching on H2 production, ash and tar behavior during high temperature steam gasification(HTSG) process[J]. International Journal of Hydrogen Energy,2009,34(14):5666-5673.
[52] UMEKI K,YAMAMOTO K,NAMIOKA T,et al. High temperature steam-only gasification of woody biomass[J]. Applied Energy,2010,87(3):791-798.
[53] 陈斌斌,田红,杨继明,等. 木聚糖高温水蒸汽气化特性及动力学研究[J]. 应用化工,2016,45(1):11-17.
[54] 涂军令. 木屑/木屑炭高温水蒸气气化制备合成气研究[D]. 北京:中国林业科学研究院硕士学位论文,2012.
[55] 高宁博. 高温过热水蒸气的制备及生物质高温气化重整制氢特性研究[D]. 大连:大连理工大学博士学位论文,2009.
[56] 孙宁,应浩,徐卫,等. 木屑水蒸气气化制取富氢燃气研究[J]. 生物质化学工程,2016,50(2):29-33. |