Journal
JOURNAL OF THE ENERGY INSTITUTE
Volume 93, Issue 6, Pages 2550-2557Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.joei.2020.09.002
Keywords
Ethylene oligomerization; HZSM-5 zeolite; Acidity; Reaction mechanism
Categories
Funding
- Basic Research Plan of Natural Science of Shaanxi Province [2019JLM-1]
- State Key Laboratory of Heavy Oil Processing [SKLOP201901001]
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The nano-sized HZSM-5 zeolites with different Si/Al ratios were pretreated, characterized, and tested in ethylene oligomerization performed in a fixed-bed reactor under relatively mild conditions. The effects of catalyst acidity and reaction temperature on the activity, selectivity and stability were investigated, and a possible reaction route of ethylene over acidic sites of nano-sized HZSM-5 catalyst was proposed. In comparison with micro-sized HZSM-5 zeolite, nano-sized HZSM-5 zeolites exhibited higher activity and better resistance to deactivation. Under optimal conditions (T = 275-300 degrees C, P = 3.0 MPa, WHSV = 1.0 h(-1)), The average ethylene conversion was 62.5% over the nano-sized HZSM-5 with an Si/Al ratio of 80, while the selectivity to C4+ olefins and alpha-olefins was 64.3% and 13.3%, respectively. Furthermore, the products of ethylene oligomerization were a complex hydrocarbon mixture due to the acid-catalyzed secondary reactions, for which the distribution of even and odd numbered carbon atoms formed a continuous volcanic shape mainly centered on C-6-C-10. Furthermore, these tests demonstrate that the activity and selectivity of ethylene oligomerization depend on the operating conditions and the acidity of the catalysts. These results indicate that the Bronsted acid sites may be mainly responsible for secondary reactions and deactivation of the catalyst, whereas the Lewis acid sites may be more advantageous for ethylene oligomerization. (C) 2020 Published by Elsevier Ltd on behalf of Energy Institute.
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