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Hydroxylation of benzene to phenol using nitrous oxide

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conference contribution
posted on 26.01.2012 by Naeem AL-Hazmi, Danish Malik, Richard J. Wakeman
There is an increasing commercial interest in finding alternative ways to produce phenol that overcome the disadvantages of the current cumene process used to synthesise phenol. The drivers for the change are both economical and environmental. A direct oxidation route for producing phenol from benzene is based on using N2O as an oxidizing agent in the gas phase in the presence of modified Fe-ZSM5 zeolite. A series of selective Fe-ZSM5 catalysts with different Si/Al ratios have been prepared and evaluated for selective formation of phenol. Catalysts synthesized with high Si/Al ratios (80) and with low iron content (35mg/g) showed good long term stability (reduced deactivation rates) and demonstrated good phenol selectivity and reaction rates (6 mmol/g.h). Catalysts with high amounts of iron (~500mg/g) showed considerable deactivation particularly at high reaction temperatures (450C). High reaction temperatures (450C) in comparison with 350C were found to favour higher reaction rates however, catalysts with high iron content were particularly prone to deactivation at this temperature.



  • Aeronautical, Automotive, Chemical and Materials Engineering


  • Chemical Engineering


AL-HAZMI, N. ... et al., 2010. Hydroxylation of benzene to phenol using nitrous oxide. IN: Proceedings of the 19th International Congress of Chemical and Process Engineering CHISA 2010, Prague, Czech Republic, 28 August - 1 September, pp. 27 - 36.


CHISA 2010


SMUR (Submitted Manuscript Under Review)

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This paper was presented at the 19th International Congress of Chemical and Process Engineering (CHISA 2010), Prague, Czech Republic on 28 August - 1 September 2010:




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