Growing demand for hydrogen promotes the research devoted to the development of new catalysts for hydrocarbons processing in absence of H₂ or at its low concentration. In the present work, it was shown that during the conversion of straight-run gasoline on a zeolite-containing polyfunctional catalyst in a hydrogen-free environment cracking, dehydrogenation, isomerization and alkylation take place due to the redistribution of H₂ between initial and formed products directly on the catalyst surface. Fine particles (≤50 Å) localize in zeolite cavities and pores of aluminum oxide, while larger ones are on their outer surface.

C6–C9 n-alkanes; straight-run gasoline; zeolite-containing catalyst; modification; additives

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