[1] 禇洪岭,王桂芝,龚凡,等. 制氢工艺技术经济与新技术[J]. 化工工技术经济,2005(9):36-40. CHU H L,WANG G Z,GONG F,et al. Technological economy and new technology of hydrogen production[J]. Chemical Techno-Economics,2005(9):36-40.
[2] 陈冠益,高文学,马文超,等. 生物质制氢技术的研究现状与展望[J]. 太阳能学报,2006(12):1276-1284. CHEN G Y,GAO W X,MA W C. The research status and expectation of hydrogen production technology from biomass[J]. Acta Energiae Solaris Sinica,2006(12):1276-1284.
[3] 刘一鸣. 工业制氢方法的比较与选择[J]. 化学与生物工程,2007,24(3):72-74. LIU Y M. The comparison and selection of industrial hydrogen production methods[J]. Chemistry & Bioengineering,2007,24(3):72-74.
[4] 吴辉军. 几种主要制氢技术的研究进展[J]. 广东化工,2013(14):111-112. WU H J. The research progress of the several main hydrogen production methods[J]. Guangdong Chemical Industry,2013(14):111-112.
[5] RAMKUMAR S,IYER M V,FAN L. Calcium looping process for enhanced catalytic hydrogen production with integrated carbon dioxide and sulfur capture[J]. Industrial & Engineering Chemistry Research,2011,50(3):1716-1729.
[6] 荣鼐. 基于CaO载碳体的煤化学链气化关键过程实验研究[D]. 杭州:浙江大学,2015. RONG N. The experimental research of key process of the coal chemical looping gasification based on CaO sorbents[D]. Hangzhou:Zhejiang University,2015.
[7] 王峰,田文栋,肖云汉,等. 煤直接制氢实验研究[J]. 中国电机工程学报,2007(32):40-45. WANG F,TIAN W D,XIAO Y H. The experimental study of coal direct hydrogen production[J]. Proceedings of the Chinese Society for Electrical Engineering,2007(32):40-45.
[8] 乔春珍,肖云汉,徐祥,等. 两种不同再生方式下含碳能源直接制氢的比较[J]. 中国电机工程学报,2006(18):95-100. QIAO C Z,XIAO Y H,XU X,et al. The comparison of direct hydrogen production from carbon-containing energy under the two different regeneration methods[J]. Proceedings of the Chinese Society for Electrical Engineering,2006(18):95-100.
[9] LIN S,HARADA M,SUZUKI Y,et al. Continuous experiment regarding hydrogen production by coal/CaO reaction with steam (Ⅰ) gas products[J]. Fuel,2004,83(7/8):869-874.
[10] LIN S,HARADA M,SUZUKI Y,et al. Continuous experiment regarding hydrogen production by Coal/CaO reaction with steam (Ⅱ) solid formation[J]. Fuel,2006,85(7/8):1143-1150.
[11] FLORIN N,HARRIS A. Hydrogen production from biomass coupled with carbon dioxide capture:the implications of thermodynamic equilibrium[J]. International Journal of Hydrogen Energy,2007,32(17):4119-4134.
[12] ZHAND R,CUMMER K,SUBY A,et al. Biomass-derived hydrogen from an air-blown gasifier[J]. Fuel Processing Technology,2005,86(8):861-874.
[13] CHEN S Y,WANG D,XUE Z P,et al. Calcium looping gasification for high-concentration hydrogen production with CO2 capture in a novel compact fluidized bed:simulation and operation requirements[J]. International Journal of Hydrogen Energy,2011,36(8):4887-4899.
[14] XUE Z P,CHEN S Y,WANG D,et al. Design and fluid dynamic analysis of a three-fluidized-bed reactor system for chemical-looping hydrogen generation[J]. Industrial & Engineering Chemistry Research,2012,51(11):4267-4278.
[15] GELDART D. Types of gas fluidization[J]. Powder Technology,1973,7(5):285-292.
[16] 胡清. L型灰控阀灰渣输送特性及喷射均匀性试验研究[D]. 重庆:重庆大学,2013. HU Q. Experimental research on transporter character and uniformity of the ash sprayed from a L-valve for ash transferring[D]. Chongqing:Chongqing University,2013.
[17] 刘景源,王恩禄,还博文,等. L阀对固体流率的调节特性关联式[J]. 动力工程,1993(4):59-61. LIU J Y,WANG E L,HUAN B W,et al. The correlation between the regulating characteristic of L-valve and solid flow rate[J]. Power Engineering,1993(4):59-61. |