2013, Volume 15, Issue 2
Strategic Study of CAE >> 2013, Volume 15, Issue 2
Research development of steam mathane reforming reactions
1. Lab of Renewable Energy and Energy Safety, Institute of Chemical Defense, Beijing 102205, China;
2. Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China
Next Previous
Abstract
In this paper, we tried to summarize the research development of steam mathane reforming (SMR) reactions in the aspects of reforming process and reaction mechanism, catlalysts material and properties evaluation, comparison of conventional and micro reactor reaction systems, and several coupling SMR power plant systems so on. The inductive results show that the SMR coupling with solid oxide fuel cell (SOFC), especially the studies about catalysts' material for unconventional micro-reactor and the micro-reactor structure incorporate with material need more deep research work.
Keywords
SMR ; mechanism ; catalysts ; micro reactor ; SOFC
References
[ 1 ] Izquierdo U,Barrio V L,Cambra J F,et al. Hydrogen production from methane and natural gas steam reforming in conventional and microreactor reaction systems[J]. International Journal of Hydrogen Energy,2012,37:7026-7033. link1
[ 2 ] Momirlan M,Veziroglu T N. The properties of hydrogen as fuel tomorrow in sustainable energy system for a cleaner planet[J]. International Journal of Hydrogen Energy,2005,30:795-802. link1
[ 3 ] Momirlan M,Veziroglu T. Recent directions of world hydrogen production[J]. Renewable & Sustainable Energy Reviews,1999, 3:219-231. link1
[ 4 ] 张艳红,汤继强,张清江. CN-23型天然气蒸气转化催化剂在 合成氨装置中的应用[J]. 天然气化工,2000,25(1):41-43. link1
[ 5 ] 李琼玖,叶传湘. 天然气转化制合成气工艺方法[J]. 氮肥设计, 1996,34(5):45-48. link1
[ 6 ] 李文兵,齐智平. 甲烷制氢技术研究进展[J]. 天然气工,2005, 25(2):165-168. link1
[ 7 ] Hou K H,Hughes R. The kinetics of methane steam reforming over a Ni/α- Al2O3 catalyst[J]. Chemical Engineering,2001,82 (2):311-328. link1
[ 8 ] Wang S B,Lug Q. Role of CeO2 in Ni/CeO2-A12O3 catalysts for carbon dioxide reforming of methane[J]. Applied Catalysis B: Environment,1998,19(3-4):267-270. link1
[ 9 ] Tetsuya S,Masanori S,Hiroyuki M,et al. Partial oxidation of methane over Ni/Mg- AlOxide catalysts prepared by solid phase crystallization method from Mg-Al hydrotal cite-like precursors [J]. Applied Catalysis A:General,2002,223(1-2):35-42. link1
[10] Mortolaa V B,Damyanovab S,Zanchetc D,et al. Surface and structural features of Pt/CeO2- La2O3- Al2O3 catalysts for partial oxidation and steam reforming of methane[J]. Applied Catalysis B:Environmental,2011,107:221-236. link1
[11] Tokunaga O,Osada Y,Ogasawara S. Reaction of CO2/CH4 as a high-level heat transport system[J]. Fuel,1989,68:990-994. link1
[12] Shang R,Guo X,Mu S,et al. Carbon dioxide reforming of methane to synthesis gas over Ni/Si3N4 catalysts[J]. International Journal of Hydrogen Energy,2011,36:4900-4907. link1
[13] Claridge J B,York A P E,Brungs A J,et al. New catalysts for the conversion of methane to synthesis gas:Molybdenum and tungsten carbide[J]. Journal of Catalysis,1998,180(1):85-100. link1
[14] Gronchi P,Mazzocchia C,Rosso D R. Carbon dioxide reaction with methane on La2O3 supported Rh catalysts[J]. Energy Conversion and Management,1995,36:605. link1
[15] Ruckenstein E,Hu Y H. Role of support in CO2 reforming of CH4 syngas over Ni catalysts[J]. Catalysis,1996,162:230-236. link1
[16] Masai M,Kado H,Miyake A,et al. Methane reforming by Carbon dioxide and steam over supported Pd,Pt and Rh catalysts[J]. Studies in Surface Science and Catalysis,1988,36:67-71. link1
[17] Wang H Y,Au C T. Carbon dioxide reforming of methane to syngas over SiO2- supported Rhodium catalysts[J]. Applied Catalysis A:Gerenal,1997,155(2):239-252. link1
[18] 李新生,徐 杰. 催化反应新材料[M]. 河南:河南科学技术出 版社,1996:54-80.
[19] Rostrup Nielsen J R. Relation between Ni crystalline size and carbon- deposition[J]. Catalysis : Science and Technology , 1984,5:111-117.
[20] Michael J Stutz,Nico Hotz,Dimos Poulikakos. Optimization of methane reforming in a microreactor—effects of catalyst loading and geometry[J]. Chemical Engineering Science, 2006,61:4027-4040. link1
[21] Georgios D Stefanidis,Dionisios G Vlachos,Niket S Kaisare. Methane steam reforming at microscales:Operation strategies for variable power output at millisecond contact times[J]. American Institute of Chemical Engineers,2009,55(1):180-191. link1
[22] Kuznetsov V V,Vitovsky O V,Gasenko O A. Methane steam reforming in an annular microchannel with Rh/Al2O3 Catalyst [J]. Journal of Engineering Thermophysics,2009,18(3):187- 196. link1
[23] Kolb G,Hessel V. Micro-structured reactors for gas phase reactions[J]. Chemical Engineering Journal,2004,98:31-38. link1
[24] Delsman E R,Laarhoven B J P F,De Croon M H J M,et al. Comparison between conventional fixed- bed and microreactor technology for a portable hydrogen production case[J]. Chemical Engineering Research & Design,2005,83:1063-1075. link1
[25] Conant T,Karim A,Datye A. Coating of steam reforming catalysts in non-porous multi-channeled microreactors[J]. Catalysis Today,2007,125:11-15. link1
[26] Men Y,Kolb G,Zapf R,et al. Total combustion of propane in a catalytic microchannel combustor[J]. Chemical Engineering Research & Design,2009,87:91-96. link1
[27] O’Connell M,Kolb G,Zapf R,et al. Bimetallic catalysts for the catalytic combustion of methane using microreactor technology[J]. Catalysis Today,2009,144:306-311.
[28] Zhai X,Ding S,Cheng Y,et al. CFD simulation with detailed chemistry of steam reforming of methane for hydrogen production in an integrated micro- reactor[J]. International Journal of Hydrogen Energy,2010,35:5383-5392. link1
[29] 银华强,姜胜耀,张佑杰,等. 高温气冷堆甲烷蒸气重整制氢 系统重整器性能数值分析[J]. 原子能科学技术,2007,41 (1):69-73. link1
[30] 李广龙,周 利,王鹏杰,等. 高温燃料电池甲烷水蒸气重整反 应催化剂研究分析[J]. 天然气化工,2010,35 :21-25. link1
京公网安备 11010502051620号
