A higher amount of oxygenated compounds in bio-oil obstructs its use in the existing
petroleum-based infrastructures. In order to convert oxygenates into hydrocarbons and less …

Power-to-fuel systems via solid-oxide electrolysis are promising for storing excess
renewable electricity by efficient electrolysis of steam (or co-electrolysis of steam and CO 2) …

Rational mixing of two kinds of catalysts with catalytic coupling functions could efficiently
convert reactants to products via two successive steps. Herein, high Si/Al ratio ZSM-5 (Z220) …

Production of propylene, the second-largest petrochemical after ethylene, has received
considerable attention in recent years due to its wide applications and avoiding oil …

ZSM-5 zeolite is widely used in catalytic cracking of hydrocarbon, but the conventional ZSM-
5 zeolite deactivates quickly due to its simple microporous and long diffusion pathway. Many …

Despite the favorable properties, ZSM-5 still suffers from deposition of coke in vital pores of
catalyst (reversible deactivation) as well as dealumination (irreversible deactivation) due to …

Comparing the effects of hollow and mesoporous structures over ZSM-5 zeolites on catalytic
behaviors in methanol aromatization was done. Hollow zeolites possessing larger voids …

Two ZSM-5 catalysts, differing only in their crystal size, viz, nanocrystal at∼ 100 nm and
microcrystal at 13 μm, respectively, were synthesised and tested in methanol to gasoline …

Two-step conversion of methanol to aromatic via olefin intermediates is an effective route to
improve catalytic stability and aromatic selectivity while the current research focuses on the …

Abstract HZSM-5, Co-incorporated HZSM-5 (3Co/Z5) and Co-incorporated hierarchical
HZSM-5 (3Co/DZ5) were employed in catalytic reforming of volatiles from lignite pyrolysis in …