Hydrodechlorination of Tetrachloromethane over Palladium Catalysts Supported on Mixed MgF₂-MgO Carriers

Molecules. 2016 Nov 25;21(12):1620. doi: 10.3390/molecules21121620.

Abstract

Pd/MgO, Pd/MgF₂ and Pd/MgO-MgF₂ catalysts were investigated in the reaction of CCl₄ hydrodechlorination. All the catalysts deactivated in time on stream, but the degree of deactivation varied from catalyst to catalyst. The MgF₂-supported palladium with relatively large metal particles appeared the best catalyst, characterized by good activity and selectivity to C₂-C₅ hydrocarbons. Investigation of post-reaction catalyst samples allowed to find several details associated with the working state of hydrodechlorination catalysts. The role of support acidity was quite complex. On the one hand, a definite, although not very high Lewis acidity of MgF₂ is beneficial for shaping high activity of palladium catalysts. The MgO-MgF₂ support characterized by stronger Lewis acidity than MgF₂ contributes to very good catalytic activity for a relatively long reaction period (~5 h) but subsequent neutralization of stronger acid centers (by coking) eliminates them from the catalyst. On the other hand, the role of acidity evolution, which takes place when basic supports (like MgO) are chlorided during HdCl reactions, is difficult to assess because different events associated with distribution of chlorided support species, leading to partial or even full blocking of the surface of palladium, which plays the role of active component in HdCl reactions.

Keywords: CCl4 hydrodechlorination; Lewis acidity; MgF2; MgO; MgO-MgF2; palladium; supports.

MeSH terms

  • Catalysis
  • Chlorine / chemistry*
  • Chloroform / chemistry*
  • Fluorides / chemistry*
  • Lewis Acids / chemistry
  • Magnesium Compounds / chemistry*
  • Magnesium Oxide / chemistry*
  • Palladium / chemistry*
  • X-Ray Diffraction

Substances

  • Lewis Acids
  • Magnesium Compounds
  • Magnesium Oxide
  • Chlorine
  • magnesium fluoride
  • Palladium
  • Chloroform
  • Fluorides