Submit Manuscript

Journal of Applied Sciences

Year: 2004 | Volume: 4 | Issue: 4 | Page No.: 575-578
Facebook Twitter Digg Reddit Linkedin StumbleUpon E-mail
Research Article

Hydrogen Pressure and Temperature Effect on the Rate of Nitrobenzene Hydrogenation over Skeleton Nickel in a Liquid Phase

Atef S. Alzaydien

ABSTRACT

The dependence of nitrobenzene hydrogenation rate upon hydrogen pressure and temperature in 2-propanol-water-aniline three component solvent over skeleton nickel has been studied. The investigation of the effect of pressure on the rate of the reaction where done in the region is corresponding to the zero reaction order. The temperature dependence of rate constants has two linear plots with a bending at temperature equal 298 K. An optimum set of conditions for reaction occurrence is established
PDF References Citation

Search

REFERENCES

  1. Ramyro, S., V. Gary, W. Scott and P. Engel, 1989. Reduction of nitro-nytrozo- and azoxy compounds. J. Org. Chem., 84: 4026-4026.
  2. Shricant, L. and R. Karva, 1988. Selective catalytic hydrogenation of nitrobenzene to hydrazobenzene. Ind. Chem. Res., 27: 21-21.
  3. Petrov, L., K. Kumbilieva and N. Kirkov, 1990. Kinetic model of nitrobenzene hydrogenation to aniline over industrial copper catalyst considering the effects of mass transfer and deactivation. Catalysis, Amsterdam, 59: 31-31.
  4. Smith, H. and W. Bediot, 1951. Kinetics of the catalytic hydrogenation of the nitrogroup on Pt. J. Phys. Coll. Chem., 17: 1085-1085.
  5. Palchevskai, T.A., L.B. Bogytskai and B.M. Belocov, 1990. Hydrogenation of substituted aromatic nitro compounds over Pd/C. J. Chem., Okrania, 58: 1428-1428.
  6. Horanyi, G. and G. Vertes, 1973. Study of P-nitrophenol on platinized platinum electrodes. J. Electroanal. Chem., 43: 441-441.
  7. Kut, O.M., F. Yucelen and G. Gut, 1987. Selective liquid-phase hydrogenation of 2, 6- dinitroluene with platinum Catalysts. J. Chem. Techol. Biotechnol., 39: 107-107.
  8. Melius, C.F., I.M. Moscovitz and A.B. Motorola, 1976. A molecular complex model for the chemisorptions of hydrogen on nickel. Surface Sci., 5: 2179-2179.
  9. Sprocchka, I. Hanika and V. Runicka, 1969. Diffusion of gases in liquids. I. measurements of the diffusion coefficient of hydrogen in alcohols. Coll. Chem. Communs., 34: 3145-3145.
  10. Scifert, W. and P. Condit, 1963. Selective catalytic hydrogenation of the nitroolefins. J. Org. Chem., 28: 265-265.
  11. Borah, H., D. Prajapati, J. Sandhu and A. Ghosh, 1994. Bismuth chloride-zinc promoted selective reduction of aromatic nitrocompounds to azoxy compound. Tetrahedron Lett., 35: 3164-3164.
  12. Freel, J., W.J. Pieters and R.B. Anderson, 1969. The structure of raney nickel. J. Catal., 16: 281-281.
  13. Mikhalailenko, S.D., 1993. The effect of redox treatment on the structural, adsorptive and catalytic properties of Raney Nickel. J. Catal., 141: 688-699.
  14. Amett, W.G., 1965. Solvent effects in organic chemistry. J. Am. Chem., 87: 1541-1541.
  15. Gostikin, V.P., K.N. Belongov and J.T. Nickolayev, 1987. Effect of dispersion of Raney nickel on the reduction rate of nitrophenol in liquid phase. Chem. Ind., 6: 418-418.
  16. Filippenko, L.K., V.P. Gostikin and L.K. Popov, 1986. Effect of the temperature and hydrogen pressure on the rate and the selectivity of the reduction process of 2-nitro-oxy-5`-methylbenzene by hydrogen in a liquid phase on the promoted nickel. Catalyst Chem. Chem. Technol., Russia, 29: 52-52.

Search

Leave a Comment

Your email address will not be published. Required fields are marked *