Abstract
Recently new Pt/Ni-based γ-Al2O3 catalysts have been developed in our laboratory with a good performance for H2 production by aqueous phase reforming of glycerol. This paper reviews these developments based on the study of the catalytic properties and performance, as well as their deactivation mechanisms. These works have led to set new perspectives related to the enhancement of catalysts hydrothermal stability and to the reduction of the deactivation processes.
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References
International Energy Agency (IEA) (2013) Key world energy statistics. http://www.iea.org. Accessed 29 Sept 2013
El Doukkali M (2012) Development of novel Pt/Ni-based γ-alumina catalysts for hydrogen production by catalytic reforming of bioethanol/bioglycerol. PhD thesis, University of the Basque Country, Bilbao, Spain
Iriondo A (2011) Nuevos catalizadores heterogéneos de Ni, Pt y PtNi modificados para la producción de hidrógeno a partir del reformado de glicerina. Editorial Académica Española, Bilbao. ISBN 10:3845485701
Cortright RD, Davda RR, Dumesic JA (2002) Nature 418:964
Huber GW, Shabaker JW, Dumesic JA (2003) Science 300:2075
Minowa T, Ogi T, Yokoyama S (1995) Chem Lett 24:937
Antal MJ, Xu X (1994) Adv Thermochem Biomass Convers 3:1367
Yu D, Aihara M, Antal MJ Jr (1993) Energy Fuels 7:574
Wen G, Xu Y, Ma H, Xu Z, Tian Z (2008) Int J Hydrogen Energy 33:6657
Davda RR, Shabaker JW, Huber GW, Cortright RD, Dumesic JA (2005) Appl Catal 56:171
Shabaker JW, Davda RR, Huber GW, Cortright RD, Dumesic JA (2003) J Catal 215:344
Ni M, Leung DYC, Leung MHK (2007) Int J Hydrogen Energy 32:3238
Iriondo A, Cambra JF, Barrio VL, Arias PL, Güemez MB, Navarro RM, Sanchez-Sanchez MC, Fierro JLG (2008) Top Catal 49:46
Iriondo A, Cambra JF, Barrio VL, Arias PL, Güemez MB, Navarro RM, Sanchez-Sanchez MC, Fierro JLG (2011) Appl Catal 106:83
El Doukkali M, Iriondo A, Arias PL, Requies J, Gandarías I, Jalowiecki-Duhamel L, Dumeignil F (2012) Appl Catal 125:516
El Doukkali M, Iriondo A, Cambra JF, Jalowiecki-Duhamel L, Dumeignil F, Arias PL (2013) J Mol Catal 368–369:125
El Doukkali M, Iriondo A, Cambra JF, Gandarías I, Jalowiecki-Duhamel L, Dumeignil F, Arias PL (2013) Appl Catal A Gen 472:80
Huber GW, Iborra S, Corma A (2006) Chem Rev 106:4044
Adhikari S, Fernando SD, Haryanto A (2009) Energy Convers Manag 50:2600
Haryanto A, Fernando S, Murali N, Adhikari S (2005) Energy Fuels 19:2098
Simonetti DA, Kunkes E, Dumesic JA (2007) J Catal 247:298
Lehnert K, Claus P (2008) Catal Commun 9:2543
Li B, Kado S, Mukainakano Y, Miyazawa T, Miyao T, Naito S, Okumura K, Kunimori K, Tomishige K (2007) J Catal 245:144
Li D, Nakagawa Yoshinao, Tomishige Keiichi (2011) Appl Catal 408:1
Huber WG, Shabaker JW, Evans ST, Dumesic JA (2006) Appl Catal 62:226
Tanksale A, Beltramini JN, Dumesicb JA, Lua GQ (2008) J Catal 258:366
Vaidya PD, Rodrigues AE (2009) Chem Eng Technol 32:1463
Tanksale A, Zhou CH, Beltramini JN, Lu GQ (2009) J Incl Phenom Macrocycl Chem 65:83
Wawrzetz A, Peng B, Hrabar A, Lercher JA (2010) J Catal 269:411–420
Zhang L, Karim AM, Engelhard MH, Wei Z, King DL, Wang Y (2012) J Catal 287:37–43
Maris EP, Davis RJ (2007) J Catal 249:328
Ueda N, Nakagawa Y, Tomishige K (2010) Chem Lett 39:506–507
Dasari A, Kiatsimkul PP, Sutterlin WR, Suppes GJ (2005) Appl Catal 281:225
Lahr DG, Shanks BH (2005) J Catal 232:386
Shabaker JW, Huber GW, Dumesic JA (2004) J Catal 222:180
Luo N, Fu X, Cao F, Xiao T, Edwards PP (2008) Fuel 87:3483
Miyazawa T, Kusunoki Y, Kunimori K, Tomishige K (2006) J Catal 240:213
El Doukkali M, Iriondo A, Arias PL, Cambra JF, Gandarias I, Barrio VL (2012) Int J Hydrogen Energy 37:8298
Nurunnabi M, Mukainakano Y, Kado S, Li B, Kunimori K, Suzuki K, Fujimoto K-I, Tomishige K (2006) Appl Catal 299:145
Trimm DL (1997) Catal Today 37:233
Praserthdam P, Mongkhonsi T, Kunatippapong S, Jaikaew B, Lim N (1997) Stud Surf Sci Catal 111:153
Chen YG, Yamazaki O, Tomishige K, Fujimoto K (1996) Catal Lett 39:91
Chen YG, Tomishige K, Yokoyama K, Fujimoto K (1997) Appl Catal 165:335
Tomishige K, Fujimoto K (1998) Catal Surv Jpn 2:3
Shamsi A, Baltrus JP, Spivey JJ (2005) Appl Catal 293:145
Cavallaro S, Chiodo V, Freni S, Mondello N, Frusteri F (2003) Appl Catal 249:119
Alberton AL, Souza MMVM, Schmal M (2007) Catal Today 123:257
Ravenelle RM, Copeland JR, Kim W-G, Crittenden JC, Sievers C (2011) ACS Catal 1:552
Kobayashi H, Hosaka Y, Hara K, Feng B, Hirosaki Y, Fukuoka A (2014) Green Chem. doi:10.1039/c3gc41357h
Absi-Halabi M, Stanislaus A, Al-Zaid H (1993) Appl Catal 101:117
Shabaker JW, Simonetti D, Cortright R, Dumesic J (2005) J Catal 231:67
Nowosielska M, Jozwiak WK, Rynkowski J (2009) Catal Lett 128:83
Jackson SD, Glanville BM, Willis J, McLellan GD, Webb G, Moyes RB, Simpson S, Wells PB, Whyman R (1993) J Catal 139:207
Noronha FB, Baldanza MAS, Monteiro RS, Aranda DAG, Ordine A, Schmal M (2001) Appl Catal 210:275
Yang R, Xing C, Lv C, Shi L, Tsubaki N (2010) Appl Catal 385:92
Acknowledgments
The works described in this paper were financially supported by funds from the Spanish Ministry of Science and Innovation (Project: ENE2011-23950), the Basque Regional Government and the University of the Basque Country (UPV/EHU).
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El Doukkali, M., Iriondo, A., Cambra, J.F. et al. Recent Improvement on H2 Production by Liquid Phase Reforming of Glycerol: Catalytic Properties and Performance, and Deactivation Studies. Top Catal 57, 1066–1077 (2014). https://doi.org/10.1007/s11244-014-0271-y
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DOI: https://doi.org/10.1007/s11244-014-0271-y