Abstract:
Mathematical modeling of a catalytic membrane reactor was performed for thermodynamically coupled processes using as an example the endothermic dehydrogenation of propane and the exothermic combustion (oxidation) of hydrogen. Benefits of using the membrane reactor to increase the yield of target products by shifting equilibrium was demonstrated theoretically. The effect of hydrogen combustion on the main characteristics of the endothermic dehydrogenation process was studied. The hydrogen combustion reaction makes it possible to further increase the conversion of propane and compensate for the energy consumption in the endothermic dehydrogenation process.
Citation:
E. V. Shelepova, A. A. Vedyagin, A. S. Noskov, “Effect of catalytic combustion of hydrogen on the dehydrogenation processes in a membrane reactor. I. Mathematical model of the process”, Fizika Goreniya i Vzryva, 47:5 (2011), 3–12; Combustion, Explosion and Shock Waves, 47:5 (2011), 499–507
\Bibitem{SheVedNos11}
\by E.~V.~Shelepova, A.~A.~Vedyagin, A.~S.~Noskov
\paper Effect of catalytic combustion of hydrogen on the dehydrogenation processes in a membrane reactor. I. Mathematical model of the process
\jour Fizika Goreniya i Vzryva
\yr 2011
\vol 47
\issue 5
\pages 3--12
\mathnet{http://mi.mathnet.ru/fgv1120}
\elib{https://elibrary.ru/item.asp?id=17283620}
\transl
\jour Combustion, Explosion and Shock Waves
\yr 2011
\vol 47
\issue 5
\pages 499--507
\crossref{https://doi.org/10.1134/S0010508211050017}
This publication is cited in the following 14 articles:
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Ekaterina V. Shelepova, Aleksey A. Vedyagin, “Theoretical Prediction of the Efficiency of Hydrogen Production via Alkane Dehydrogenation in Catalytic Membrane Reactor”, Hydrogen, 2:3 (2021), 362
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Emiliya D. Ivanchina, Elena N. Ivashkina, Irena O. Dolganova, Nataliya S. Belinskaya, “Mathematical modeling of multicomponent catalytic processes of petroleum refining and petrochemistry”, Reviews in Chemical Engineering, 37:1 (2021), 163
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Majid Saidi, Maryam Safaripour, “Pure Hydrogen and Propylene Coproduction in Catalytic Membrane Reactor‐Assisted Propane Dehydrogenation”, Chem Eng & Technol, 43:7 (2020), 1402
Majid Saidi, Alireza Jahangiri, “Theoretical study of hydrogen production by ethanol steam reforming: Technical evaluation and performance analysis of catalytic membrane reactor”, International Journal of Hydrogen Energy, 43:32 (2018), 15306
Majid Saidi, “Performance assessment and evaluation of catalytic membrane reactor for pure hydrogen production via steam reforming of methanol”, International Journal of Hydrogen Energy, 42:25 (2017), 16170
Seung‐Won Choi, Christopher W. Jones, Sankar Nair, David S. Sholl, Jason S. Moore, Yujun Liu, Ravindra S. Dixit, John G. Pendergast, “Material properties and operating configurations of membrane reactors for propane dehydrogenation”, AIChE Journal, 61:3 (2015), 922
Masoud Hasany, Mohammad Malakootikhah, Vahid Rahmanian, Soheila Yaghmaei, “Effect of hydrogen combustion reaction on the dehydrogenation of ethane in a fixed-bed catalytic membrane reactor”, Chinese Journal of Chemical Engineering, 23:8 (2015), 1316
E. El-Zanati, S.M.C. Ritchie, H. Abdallah, S. Elnashaie, “Mathematical Modeling, Verification and Optimization for Catalytic Membrane Esterification Micro-reactor”, International Journal of Chemical Reactor Engineering, 13:1 (2015), 71
A. V. Lavrenov, L. F. Saifulina, E. A. Buluchevskii, E. N. Bogdanets, “Propylene production technology: Today and tomorrow”, Catal. Ind., 7:3 (2015), 175
Ruidan Liu, Yian Zhu, Zhijun Sui, Hong Wang, Ping Li, Xinggui Zhou, “Support effects on catalytic performance for selective combustion of hydrogen in the presence of propene”, Fuel Processing Technology, 108 (2013), 82
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