Title of article :
Metal-ion pillared clays as hydrocracking catalysts (II): effect of contact time on products from coal extracts and petroleum distillation residues☆
Author/Authors :
Bodman، نويسنده , , S.D. and McWhinnie، نويسنده , , W.R. and Begon، نويسنده , , V and Millan، نويسنده , , M and Suelves، نويسنده , , I and Lazaro، نويسنده , , M.-J and Herod، نويسنده , , A.A and Kandiyoti، نويسنده , , R، نويسنده ,
Issue Information :
روزنامه با شماره پیاپی سال 2003
Pages :
13
From page :
2309
To page :
2321
Abstract :
Novel catalysts have been prepared, based on montmorillonite (a natural clay) and laponite (a synthetic clay) pillared with tin, chromium and aluminium pillars as well as layered double hydroxides based on polyoxo-vanadate and -molybdate as previously described. These novel catalysts were compared initially with a standard Ni/Mo catalyst supported on alumina and a dispersed catalyst, Mo(CO)6 in hydrocracking a coal extract for a short contact time of 10 min at 440 °C in a microbomb reactor with tetralin solvent and hydrogen at a pressure of 190 bar. In the present work, the best of the novel catalysts, chromium montmorillonite calcined at 500 °C and tin laponite, have been compared with the supported catalyst and a dispersed catalyst (Mo(CO)6) in the repeated hydrocracking of fresh coal extract over three sequential periods of 1 h. Also, the chromium montmorillonite calcined at 500 °C has been used in the hydrocracking of primary coal extracts, prepared in the flowing solvent liquefaction rig from Pittsburgh #8 and Illinois #6 coals, for reaction times of 10 min and 2 h. Further, the chromium montmorillonite calcined at 500 °C and tin laponite, have been compared with the supported catalyst and in the absence of a catalyst, in the hydrocracking of a petroleum distillation residue with 10 min and 2 h reaction times. Results were compared by size exclusion chromatography in NMP solvent and by UV-fluorescence and evaluated by the extent of the shift of the SEC profile to small molecules and by the shift of the synchronous UV-fluorescence profiles to shorter wavelengths. The performances of both catalysts at short, long or repeated reaction times are seen to be better than that of the conventional NiMo catalyst for the hydrocracking of coal-derived materials and a petroleum residue. Trials on a longer time scale are necessary in the next level of evaluation.
Keywords :
Pillared clays , Hydrocracking , Coal extracts , Vacuum residues
Journal title :
Fuel
Serial Year :
2003
Journal title :
Fuel
Record number :
1463332
Link To Document :
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