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Petroleum Science and Technology Volume 35, 2017 - Issue 16
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Original Articles

Heavy paraffin dehydrogenation and hydrogenation of nitrobenzene to aniline: Effects of operating conditions

M. BayatDepartment of Chemical Engineering, Faculty of Engineering, University of Bojnord, Bojnord, IranCorrespondence[email protected]
ORCID Iconhttp://orcid.org/0000-0003-4607-1894
ORCID Icon
Pages 1635-1641 | Published online: 14 Nov 2017

References

  • Abo-Ghander, N. S., Grace, J. R., Elnashaie, S. S. E. H., and Lim, C. J. (2008). Modeling of a novel membrane reactor to integrate dehydrogenation of ethylbenzene to styrene with hydrogenation of nitrobenzene to aniline. Chem. Eng. Sci. 63:1817–1826.
  • Aboosadi, Z. A., Rahimpour, M. R., and Jahanmiri, A. (2011). A novel integrated thermally coupled configuration for methane-steam reforming and hydrogenation of nitrobenzene to aniline. Int. J. Hydrog. Energy 36:2960–2968.
  • Amon, B., Redlingshöfer, H., Klemm, E., Dieterich, E., and Emig, G. (1999). Kinetic investigations of the deactivation by coking of a noble metal catalyst in the catalytic hydrogenation of nitrobenzene using a catalytic wall reactor. Chem. Eng. Process.:Process Intensif. 38:395–404.
  • Bayat, M. (2017). Simultaneous heavy paraffin dehydrogenation and hydrogenation of nitrobenzene in a linear Alkyl benzene plant. Pet. Sci. Tech., Accepted Manuscript.
  • Bayat, M., and Rahimpour, M. R. (2011). Simultaneous utilization of two different membranes for intensification of ultrapure hydrogen production from recuperative coupling autothermal multitubular reactor. Int. J. Hydrog. Energy 36:7310–7325.
  • Bayat, M., and Rahimpour, M. R. (2012). Simultaneous hydrogen injection and in-situ H2O removal in a novel thermally coupled two-membrane reactor concept for Fischer–Tropsch synthesis in GTL technology. J. Nat. Gas Sci. Eng. 9:73–85.
  • Bayat, M., Dehghani, Z., and Rahimpour, M. R. (2014). Ultrapure hydrogen production via dehydrogenation of heavy paraffin in a linear alkyl benzenes plant: Dynamic modeling study. Energy Fuels 28:7097–7108.
  • Bayat, M., and Rahimpour, M. R. (2014). Enhanced olefin production via a novel radial-flow membrane reactor of heavy paraffin dehydrogenation in LAB plant. J. Taiwan Inst. Chem. Eng. 45:2906–2919.
  • Lira, A., and Tailleur, R. G. (2012). Dehydrogenation of C12–C14 paraffins on PtCu/meso-structured Al2O3 catalyst for LAB production: Process simulation. Fuel 97:49–60.
  • Rahimpour, M. R., Vakili, R., Pourazadi, E., Iranshahi, D., and Paymooni, K. (2011). A novel integrated, thermally coupled fluidized bed configuration for catalytic naphtha reforming to enhance aromatic and hydrogen productions in refineries. Int. J. Hydrog. Energy 36:2979–2991.

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