References
- Ahmed, T. Y., M. M. Ahmad, S. Yusup, A. Inayat, and Z. Khan. 2012. Mathematical and computational approaches for design of biomass gasification for hydrogen production: A review. Renew Sust Energy Rev. 16:2304–2315.
- Boyano, A., T. Morosuk, A. M. Blanco-Marigorta, and G. Tsatsaronis. 2012. Conventional and advanced exergoenvironmental analysis of a steam methane reforming reactor for hydrogen production. J Clean Prod. 20:152–160.
- Gao, Y., B. Ghorbanian, H. Najari Gargari, and W. Gao. 2017. Steam gasification of bitumen oil in presence of Ni/dolomite catalysts. Petrol Sci Technol., Accepted.
- Garcia, L., R. French, S. Czemik, and E. Chornet. 2000. Catalytic steam reforming of bio-oils for the production of hydrogen: Effects of catalyst composition. Appl Catal A Gen. 201:225–239.
- Liorca, J., N. Homs, J. Sales, and P. R. de la Piscina. 2002. Efficient production of hydrogen over supported cobalt catalysts from ethanol steam reforming. J Catal 209:306–317.
- Liu, Z. 2017. China's strategy for the development of renewable energies. Energy Sources, Part B: Economics, Planning, and Policy. 12:971–975.
- Nogarea, D. D., P. Baggiob, C. Tomasib, L. Mutric, and P. Canua. 2007. A thermodynamic analysis of natural gas reforming processes for fuel cell application. Chem Eng Sci. 62:5418–5424.
- Sehested, J. 2006. Four challenges for nickel steam-reforming catalysts. Catal Today. 111:103–110.
- Silveira, J. L., L. B. Braga, A. C. C. Souza, J. S. Antunes, and R. Zanzi. 2009. The benefits of ethanol use for hydrogen production in urban transportation. Renew Sust Energy Rev. 13:2525–2534.
- Silveria, E. B., R. C. Rabelo-Neto, and F. B. Noronha. 2017. Steam reforming of toluene, methane and mixtures over Ni/ZrO2 catalysts. Catal Today. 289:289–301.
- Swiercczynski, D., C. Courson, and A. Kiennemann. 2008. Study of steam reforming of toluene used as model compound of tar produced by biomass gasification. Chem Eng Proc: Proc Intensification. 47:508–513.