[1] Kathiraser, Y., Oemar, U., Saw, E.T., Li, Z., Kawi, S., "Kinetic and mechanistic aspects for CO2 reforming of methane over Ni based catalysts", Chemical Engineering Journal, pp. 62-78, (2015).
[2] Ahmadi, M., Bahadori, F., "CO2 utilization for the production of liquid hydrocarbons by coupled steam and dry reforming of bioethanol, Energy Sources", Part A: Recovery, Utilization, and Environmental Effects, 44: 3, pp. 7400-7412, (2022).
[3] Mirzadeh, M., "Using bioethanol as energy resource and decreasing the pollution of environment", Journal of Biosafety, 10(2), pp. 53-72, In Persian, (2017).
[4]
Dennis, M. N., Leung Michael, Y. C., Leung, K. H., "A review on reforming bio-ethanol for hydrogen production,
International Journal of Hydrogen Energy",
32 (15), pp. 3238-3247, (2007).
[5] Farkha, S., Jaf, P., Salih, W., "Gasoline Octane Number Improvement by Ethanol as an Oxygenated Compound", American Journal of Oil and Chemical Technologies, 4 (2), pp. 63-69, (2016).
[6]
Denny, S. R.,
Lin, Z.,
Porter, W. N.,
Artrith, N.,
Chen, J. G., "Machine learning prediction and experimental verification of Pt-modified nitride catalysts for ethanol reforming with reduced precious metal loading",
Applied Catalysis B: Environmental,
312 (5), pp. 121380, (2022).
[7]
Li, F.,
Wang, M., Zhang, J., Lin, X., Wang, D., Cai, W., "Sandwich-type Co core@shell nanocomposite (SiO2 @Co@CeO2), Coke resistant catalyst toward CO
2 reforming with ethanol",
Applied Catalysis A: General,
638, pp. 118605, (2022).
[8]
Fornero, E. L.,
Vecchietti, J., Rodrigues,
M. B., Hernández-Garrido, J. C., Bonivardi, A. L., "Cooperative role of cobalt and gallium under the ethanol steam reforming on Co/CeGaOx",
International Journal of Hydrogen Energy,
47(41), pp. 18018-18031, (2022).
[10] Ruocco C., Palma V., Ricca A., "Experimental and kinetic study of oxidative steam reforming of bioethanol over fresh and spent bimetallic catalysts", Chemical Engineering Journal, 337,
pp. 119778, (2019).
[11] Li, M., Guo, W., Jiangs, R., Zhao, L., Shan, H., "Decomposition of ethanol on Pd(111), a density functional theory study", Langmuir, 26, pp. 1879–1888, (2010).
[12] Rodríguez-Gómez, A., Dorado, F., Sánchez, P., de la Osa, A. R., "Boosting hydrogen and chemicals production through ethanol electroreforming on Pt-transition metal anodes", Journal of Energy Chemistry 70, pp. 394-406, (2022).
[13] Sutton, J. E., Vlachos, D. G., "Ethanol activation on closed-packed surfaces, Industrial Engineering Chemistry Research", 54, pp. 4213-4225, (2015).
[14] Bepari, S, Kuila, D., Steam reforming of methanol, ethanol and glycerol over nickel-based catalysts-A review. Int J Hydrogen Energy 2019; 45(36), 18090-113.
[15] Ramkiran, A., Vo, D. V. N., Mahmud, M. S., "Syngas production from ethanol dry reforming using Cu-based perovskite catalysts promoted with rare earth metals",
International Journal of Hydrogen Energy,
46(48), pp. 24845-24854, (2021).
[16] Afolabi, A. T. F., Kechagiopoulos, P. N., Liu, Y., Li, C. -Z., "Kinetic features of ethanol steam reforming and decomposition using a biochar-supported Ni catalyst", Fuel Processing Technology 212, p. 106622, (2021).
[17]
Yousefi Amiri, T., Ghasemzageh, K., Iulianelli, A., "Membrane reactors for sustainable hydrogen production through steam reforming of hydrocarbons: A review",
Chemical Engineering Processing - Process Intensification,
157, p. 108148, (2020).
[18] Rossetti, I., Compagnoni, M., Torli, M., "Process simulation and optimization of H
2 production from ethanol steam reforming and its use in fuel cells 1. Thermodynamic and kinetic analysis”, Chemical Engineering Journal,
281, pp. 1024-1035, (2015).
[19] Gallucci, F., Van Sint Annaland, M., Kuipers, J. A. M., "Pure hydrogen production via autothermal reforming of ethanol in a fluidized bed membrane reactor: A simulation study", International Journal of hydrogen energy, 35, pp. 1659-1668, (2010).
[20] Sahoo, D. R., Vajpai, S., Patel, S., Pant, K. K., "Kinetic modeling of steam reforming of ethanol for the production of hydrogen over Co/Al2O3 catalyst”, Chemical Engineering Journal 125, pp. 139–147, (2007).
[21] Bej, B., Bepari, S., Pradhan, N. C., Neogi, S., "Production of hydrogen by dry reforming of ethanol over alumina supported nano-NiO/SiO
2 catalyst", Catalysis Today,
291, pp., 58-66, (2017).
[22] Jin, Y., Rui Z., Tian, Y., Lin Y., Li, Y., "Sequential simulation of dense oxygen permeation membrane reactor for hydrogen production from oxidative steam reforming of ethanol with ASPEN PLUS", International Journal of Hydrogen Energy, 35,
pp. 6691-6698, (2010).