Production of aromatic compounds in the heavy naphtha and light LCO ranges. Catalytic cracking of C10 naphthenic-aromatics and aromatics

R. PUJRO; U. SEDRAN; M. FALCO

JOURNAL OF CHEMICAL TECHNOLOGY AND BIOTECHNOLOGY

JOHN WILEY & SONS LTD

Año: 2016 vol. 91 p. 336 - 345

0268-2575

BACKGROUND: The conversions of bicyclic compounds, both naphthenic-aromatic (tetralin) and aromatic (naphthalene) as model reactants representative of the heavy gasoline and light LCO cuts in FCC, were studied to understand the formation of C10-C20 aromatic compounds in gasoline and middle distillates cuts, in view of their impact on the properties of the cuts. A commercial FCC catalyst was used in its fresh, hydrothermally dealuminated and equilibrium forms, at 450 ºC in a fluidized bed CREC Riser Simulator reactor in the 2-8 s reaction time range. RESULTS: Products were C1-C14 hydrocarbons and coke. Based on the product distributions, reaction networks were proposed for both reactants. The reactions considered in the networks were hydrogen transfer, cracking, ring opening and contraction, alkylation and disproportionation. CONCLUSION: The load of zeolite in the catalysts and their acidities have the strongest influences on reaction selectivities. In the case of tetralin, the prevalent reaction is hydrogen transfer, which becomes more important as the catalysts are less active, the hydrocarbons with highest yields being C10 aromatics. Cracking reactions predominate in naphthalene conversion over all the catalysts, a fact which favors monoaromatic C9- hydrocarbons. These results can help to design new FCC catalysts with a better selectivity control.