Abstract
Abstract: The oligomerization of 1-pentene is an efficient process for producing environmentally friendly high-quality fuel components. The catalytic properties of FAU, OFF, MOR, BEA, MTW, and MFI zeolites in the H form are studied in the synthesis of pentene oligomers in an autoclave at 110–200°C. It is established that the high activity of H-Y and H-Beta(18) zeolites in the reaction of oligomerization, where the yield of oligomers reaches 97–100%, is determined by their wide-pore structure and high concentration of acid sites. The oligomers prepared on these catalysts are 30–73% dimers, 25–50% trimers, and 2–14% oligomers, with number n > 3 of monomer units. Narrow-pore zeolites (H-ZSM-5) or zeolites with one- and two-dimensional channel systems (H-OFF, H-MOR, and H-ZSM-12) are less active in the oligomerization of 1-pentene, with decenes as the main products of the reaction.
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Grigor’eva, N. G., Serebrennikov, D. V., Bubennov, S. V., & Kutepov, B. I. (2020). Oligomerization of 1-Pentene on Zeolite Catalysts. Catalysis in Industry, 12(1), 47–55. https://doi.org/10.1134/S2070050420010079
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