Beneficial roles of carbon black additives in slurry phase hydrocracking of vacuum residue

“…Disclosing the kinetic behavior of catalytic reactions is very important for mechanism understanding and process design in the industry. For the slurry-phase hydrocracking of KAR, the possible conversion routes can be depicted as Figure according to the literature reports. , The residue can be converted into VGO first, then the VGO is converted into distillate, and finally, the distillate is converted into gas. Alternatively, the residue can be converted into distillate or gas directly, and VGO can also be converted into gas directly.…”

Slurry-Phase Hydrocracking of Heavy Oil with Bifunctional Catalysts In Situ Generated from Oil-Soluble Ionic Liquid and Mixed Metal Oxide

“…Disclosing the kinetic behavior of catalytic reactions is very important for mechanism understanding and process design in the industry. For the slurry-phase hydrocracking of KAR, the possible conversion routes can be depicted as Figure according to the literature reports. , The residue can be converted into VGO first, then the VGO is converted into distillate, and finally, the distillate is converted into gas. Alternatively, the residue can be converted into distillate or gas directly, and VGO can also be converted into gas directly.…”

Slurry-Phase Hydrocracking of Heavy Oil with Bifunctional Catalysts In Situ Generated from Oil-Soluble Ionic Liquid and Mixed Metal Oxide

Partial upgrading of heavy oils by catalytic aquathermal visbreaking with dispersed iron oxide catalysts

Trialkylmethylammonium molybdate ionic liquids as novel oil-soluble precursors of dispersed metal catalysts for slurry-phase hydrocracking of heavy oils