Steam reforming of propane over Ni-K/CeO2-Al2O3 catalyst in fluidized- and fixed-bed reactors under low steam to propane ratio
Subject Areas : Iranian Journal of CatalysisMir Mohammad Motiee 1 , Golshan Mazloom 2 , Seyed Mehdi Alavi 3
1 - Reaction Engineering Lab., Chemical Engineering Department, Iran University of Science and Technology, 16846-13114, Tehran, Iran
2 - Department of Chemical Engineering, Faculty of Engineering, University of Mazandaran, 13534-47416, Babolsar, Iran
3 - Reaction Engineering Lab., Chemical Engineering Department, Iran University of Science and Technology, 16846-13114, Tehran, Iran
Keywords:
Abstract :
[1] L.V. Mattos, G. Jacobs, B. H. Davis, F. B. Noronha, Chem. Rev. 112 (2012) 4094-4123.
[2] C. Agrafiotis, M. Roeb, C. Sattler, Renewable Sustainable Energy Rev. 42 (2015) 254-285.
[3] P. J. Woolcock, R. C. Brown, Biomass Bioenergy 52 (2013) 54-84.
[4] W. L. S. Faria, C. A. C. Perez, D. V. Cesar, L. C. Dieguez, M. Schmal, Appl. Catal. B 92 (2009) 217-224.
[5] C. F. Wu, L. Z. Wang, P. T. Williams, J. Shi, J. Huang, Appl. Catal. B 108–109 (2011) 6-13.
[6] W. H. Fang, S. Paul, M. Capron, F. Dumeignil, L. Jalowiecki-Duhamel, Appl. Catal. B 152–153 (2014) 370-382.
[7] S. F. Weng, Y. H. Wang, C. S. Lee, Appl. Catal. B. 134–135, (2013) 359–366.
[8] Y. Bang, J. G. Seo, I. K. Song, Int. J. Hydrogen Energy 36 (2011) 8307–8315.
[9] M. A. Rakib, J. R. Grace, C. J. Lim, S. E. H. Elnashaie, B. Ghiasi, Int. J. Hydrogen Energy 35 (2010) 6276-90.
[10] D. J. Haynes, D. Shekhawat, Dushyant S, Spivey JJ, David AB. Amsterdam: Elsevier (2011) 129-190.
[11] L. F. Brown, Int. J. Hydrogen Energy 26 (2001) 381-397.
[12] B. Johnston, M.C. Mayo, A. Khare, Technovation 25 (2005) 569-585.
[13] M. Ball, M. Wietschel, Int. J. Hydrogen Energy, 34 (2009) 615-627.
[14] M. B. Jensen, L. B. Raberg, A. O. Sjastad, U. Olsbye, Catal. Today, 145 (2009) 114-120.
[15] S. Ayabe, H. Omoto, T. Utaka, R. Kikuchi, K. Sasaki, Y. Teraoka, K. Eguchi, Appl. Catal. A 241 (2003) 261-269.
[16] H. R. Lee, K. Y. Lee, N. C. Park, J. S. Shin, D. J. Moon, B. G. Lee, Y. C. Kim, J. Nanosci. Nanotechnol. 6 (2006) 3396-3398.
[17] L. Zhang, X. Wang, B. Tan, U. S. Ozkan, J. Mol. Catal. A: Chem. 297 (2009) 26-34.
[18] S. Y. Park, J. H. Kim, D. J. Moon, N. C. Park, Y. C. Kim, J. Nanotechnol. 10 (2010) 3175-3179.
[19] M. Usman, W. W. Daud, H. F. Abbas, Renewable Sustainable Energy Rev. 45 (2015) 710-44.
[20] N. Yu, M. M. Rahman, J. Chen, J. Sun, M. Engelhard, P. Hernandez, Y. Wang, Catal. Today 323 (2019) 183-190.
[21] A. Trovarelli, Catal. Rev. 38 (1996) 439–520.
[22] S. B. Wang, G. Q. Lu, Appl. Catal. B. 19 (1998) 267–277.
[23] H. Wu, L. Wang, Catal. Commun. 12 (2011) 1374-1379.
[24] M. Tang, L. Xu, L. Fa, Int. J. Hydrogen Energy 39 (2014) 15482-15496.
[25] A. Delparish, A. K. Avci, Fuel Process. Technol. 151 (2016) 72-100.
[26] Y. Shi, X. Du, L. Yang, Y. Sun, Y. Yang, Int. J. Hydrogen Energy 38 (2013) 13974-13981.
[27] B. Arstad, J. Prostak, R. Blom, Chem. Eng. J. 189-190 (2012) 413-421.
[28] S. Khajeh, Z. Arab Aboosadi, B. Honarvar, J. Nat. Gas. Sci. Eng. 19 (2014) 152-160.
[29] Q. Jing, H. Lou, Li. Mo, X. Zheng, Energy Convers. Manag. 47 (2006) 459-469.
[30] A. Nandini, K.K. Pant, S. C. Dhingra, Appl. Catal. A 308 (2006) 119–127
[31] S. M. Masoom Nataj, S. M. Alavi, G. Mazloom, J. energy chem. 27 (2018) 1475-1488.
[32] W. Chen, G. Zhao, Q. Xue, Li. Chen, Y. Lu, Appl. Catal. B 136 (2013) 260-268.
[33] Y. K. Han, C. Ahn, J. W. Bae, A. Rong Kim, G.Y. Han, Ind. Eng. Chem. Res. 52 (2013) 13288-13296.
[34] C. E. Daza, A. Kiennemann, S. Moreno, R. Molina, Appl. Catal. A 364 (2009) 65-74.
[35] S. Barison, M. Fabrizio, C. Mortalò, P. Antonucci, V. Modafferi, R. Gerbasi, Solid state Ionics 181 (2010) 285–291
[36] F. Barzegari, M. Kazemeini, F. Farhadi, M. Rezaei, A. Keshavarz, Int. J. hydrogen energy 45 (2020) 6604-6620.
[37] K. M. Kim, B. S. Kwak, N. Park, T. J. Lee, S. T. Lee, M. Kang, J. Ind. Eng. Chem. 46 (2017) 324-336.
[38] X. Wang, N. Wang, J. Zhao, L. Wang, Int. J. hydrogen energy 35 (2010) 12800-12807
[39] M. S. Fan, A. Z. Abdullah, S. Bhatia, Appl. Catal. B 100 (2010) 365-377.
[40] Z. Shang, S. Li, L. Li, G. Liu, X. Liang, Appl. Catal. B 201 (2017) 302-309.
[41] Q. Jing, H. Lou, L. Mo, X. Zheng, Energy Convers. Manage. 47 (2006) 459-469.
[42] A. Carlos, S.C. Teixeira, R. Giudici, Chem. Eng. Sci. 54 (1999) 3609-3618.
[43] N. Hadian, M. Rezaei, Z. Mosayebi, F. Meshkani, J. Nat. Gas Chem. 21 (2012) 200-206.
[44] A.R. Aghamiri, S. M. Alavi, A. Bazyari, A. Azizzadeh Fard, Int. J. hydrogen energy 44 (2019) 9307-9315.
[45] A. Azizzadeh Fard, R. Arvaneh, S. M. Alavi, A. Bazyari, A. Valaei, Int. J. hydrogen energy 44 (2019) 21607-21622.
[46] M. Matsuka, K. Shigedomi, T. Ishihara, Int. J. hydrogen energy 39 (2014) 14792-14799.