Kinetic and structural requirements for a CO 2 adsorbent in sorption enhanced catalytic reforming of methane - Part I: Reaction kinetics and sorbent capacity

Fuel

Volumn 99, Issue , 2012, Pages 154-164

  Halabi, M H ^a   De Croon, M H J M ^a   Van Der Schaaf, J ^a   Cobden, P D ^b   Schouten, J C ^a  

^a EINDHOVEN UNIVERSITY OF TECHNOLOGY   (Netherlands)

^b TNO   (Netherlands)

Author keywords

Hydrogen production; Hydrotalcite and lithium zirconate sorbents; Particle based modeling; Rh based catalyst; Sorption enhanced steam reforming

Indexed keywords

ACTIVE CATALYST; ADSORPTION KINETICS; DUAL FUNCTION; EFFICIENT PROCESS; ENHANCED STEAM REFORMING; FEED GAS; FIXED BED; HYDROTALCITES; IDENTICAL CONDITIONS; LITHIUM ZIRCONATE; LOW TEMPERATURES; MODEL-BASED ANALYSIS; MULTI-SCALE MODELING; OPTIMAL OPERATING CONDITIONS; REFORMING OF METHANE; RH-BASED CATALYST; SORPTION KINETICS; STEAM REFORMING OF METHANE; STRUCTURAL REQUIREMENTS;

ADSORPTION; CATALYSTS; HYDROGEN PRODUCTION; KINETICS; LITHIUM COMPOUNDS; METHANE; PETROCHEMICAL PLANTS; REACTION KINETICS; RHODIUM; SORBENTS; STEAM REFORMING; ZIRCONIUM;

CARBON DIOXIDE;

EID: 84862182802     PISSN: 00162361     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.fuel.2012.04.016     Document Type: Article

References (41)

1. J.R. Hufton, S. Mayorga, and S. Sircar Sorption-enhanced reaction process for hydrogen production AIChE J 45 1999 248 256 (Pubitemid 29136609)
2. Hufton J, Waldron W, Weigel S, Rao M, Nataraj S, Sircar S. Sorption enhanced reaction process SERP) for the production of hydrogen. In: Proceedings of the 2000 US DOE hydrogen program, review; 2000.
3. Y. Ding, and E. Alpay Adsorption-enhanced steam-methane reforming Chem Eng Sci 55 2000 3929 3940 (Pubitemid 30448524)
4. 2 from flue gases using hydrotalcite adsorbent Trans IChem E 79-B1 2001 45 51
5. W.F. Waldron, J.R. Hufton, and S. Sircar Production of hydrogen by cyclic sorption enhanced reaction process AIChE J 47 2001 1477 1479
6. G. Xiu, J.L. Soares, P. Li, and A.E. Rodrigues Simulation of five-step one-bed sorption-enhanced reaction process AIChE J 48 2002 2817 2832 (Pubitemid 36172959)
7. G. Xi, P. Li, and A.E. Rodrigues Sorption-enhanced reaction process with reactive regeneration Chem Eng Sci 57 2002 3893 3908 (Pubitemid 35302093)
8. G. Xi, P. Li, and A.E. Rodrigues New generalized strategy for improving sorption-enhanced reaction process Chem Eng Sci 58 2003 3425 3437 (Pubitemid 36978406)
9. G. Xiu, P. Li, and A.E. Rodrigues Adsorption-enhanced steam-methane reforming with intraparticle-diffusion limitations Chem Eng J 93 2003 83 93 (Pubitemid 37060878)
10. 2 capture: conceptual parametric study Fuel 84 2005 1778 1789
11. 2 adsorption on hydrotalcite adsorbent Chem Eng Sci 55 2000 3461 3474
12. A. Yong, V. Mata, and A.E. Rodrigues Adsorption of carbon dioxide onto hydrotalcite-like compounds (HTlcs) at high temperatures Ind Eng Chem Res 40 2001 204 209
13. A.D. Ebner, S.P. Reynolds, and J.A. Ritter Non-equilibrium kinetic model that describes the reversible adsorption and desorption behavior of CO2 in a K-promoted hydrotalcite-like compound Ind Eng Chem Res 46 2007 1737 1744 (Pubitemid 46473453)
14. K.B. Lee, A. Verdooren, H.S. Caram, and S. Sircar Chemisorption of carbon dioxide on potassium-carbonate-promoted hydrotalcite J Colloid Interface Sci 308 2007 30 39 (Pubitemid 46209128)
15. 2 Sorption on hydrotalcite and alkali-modified (K and Cs) hydrotalcites at high temperatures Sep Purif Technol 62 2008 137 147
16. Y. Lwin, and F. Abdulla High temperature adsorption of carbon dioxide on Cu-Al hydrotalcite-derived mixed oxides: kinetics and equiblria by thermogravimetry J Therm Anal Calorim 97 2009 885 889
17. 2 capture Ind Eng Chem Res 49 2010 1229 1235
18. M.R. Othman, Z. Helwania, B. Martunusa, and W.J.N. Fernando Synthetic hydrotalcites from different routes and their application as catalysts and gas adsorbents: a review Appl Organometal Chem 23 2009 335 346
19. M. Kato, S. Yoshikawa, and K. Nakagawa Carbon dioxide absorption by lithium orthosilicate in a wide range of temperature and carbon dioxide concentrations J Mater Sci Lett 21 2002 485
20. 2 sorption on lithium zirconate Environ Sci Technol 37 2003 1999
21. R. Xiong, J. Ida, and Y. Lin Kinetics of carbon dioxide sorption on potassium-doped lithium zirconate Chem Eng Sci 58 2003 4377 4385 (Pubitemid 37245354)
22. 2 sorption properties of pure and modified lithium zirconate Sep Purif Technol 36 2004 41 51
23. 2 capture Fuel Process Technol 86 2005 1503 1521
24. 2 at high temperature Chin J Inorg Chem 19 2003 531
25. B.N. Nair, T. Yamaguchi, H. Kawamura, and S. Nakao Processing of lithium zirconate for applications in carbon dioxide separation: structure and properties of the powders J Am Ceram Soc 87 2004 68
26. A. Kapil, S.A. Bhat, and J. Sadhukhan Multiscale characterization framework for sorption enhanced reaction process AICHE J 54 2008 1025 1036 (Pubitemid 351529950)
27. 2 capture Chem Eng Sci 62 2007 2833 2841 (Pubitemid 46603176)
28. G.C. Koumpouras, E. Alpay, A. Lapkin, Y. Ding, and S. Frantisek The effect of adsorbent characteristics on the performance of a continuous sorption-enhanced steam methane reforming process Chem Eng Sci 62 2007 5632 5637 (Pubitemid 47268378)
29. 3 as sorbent: sorption kinetics and reactor simulation Catal Today 106 2005 41 46
30. M.H. Halabi, M.H.J.M. de Croon, J. van der Schaaf, P.D. Cobden, and J.C. Schouten Reactor modeling of sorption-enhanced autothermal reforming of methane. Part I: performance study of hydrotalcite and lithium zirconate-based processes Chem Eng J 168 2011 872 882
31. M.H. Halabi, M.H.J.M. de Croon, J. van der Schaaf, P.D. Cobden, and J.C. Schouten Reactor modeling of sorption-enhanced autothermal reforming of methane. Part II: effect of operational parameters Chem Eng J 168 2011 883 888
32. M.H. Halabi, M.H.J.M. de Croon, J. van der Schaaf, P.D. Cobden, and J.C. Schouten Low temperature catalytic methane-steam reforming over ceria-zirconia supported rhodium App Catal A 389 2010 68 79
33. 1-αO2 catalyst App Catal A 389 2010 80 91
34. Halabi MH, de Croon MHJM, van der Schaaf J, Cobden PD, Schouten JC. Kinetic and structural requirements for a CO2 adsorbent in sorption enhanced catalytic reforming of methane. Part II: Bed characteristics. Fuel, submitted, 2012.
35. G.F. Froment, and K.B. Bischoff Chemical reactor analysis and design 1990 Wiley London
36. S. Ergun Fluid flow through packed columns Chem Eng Prog 48 1952 89 94
37. M.F. Edwards, and J.F. Richardson Gas dispersion in packed beds Chem Eng Sci 23 1968 109 123
38. R.C. Reid, J.M. Prausnitz, and B.E. Poling The properties of gases and liquids 1988 McGraw-Hill New York
39. R.B. Bird, W.E. Stewart, and E.N. Lightfoot Transport phenomena 2nd ed. 2002 Wiley New York
40. 2 production Int J Hydrogen Energy 37 2012 4516 4525
41. 2 capture Int J Hydrogen Energy 37 2012 4987 4996