The direct synthesis of dimethyl ether (DME) on bifunctional catalysts is highly attractive for
valorizing CO 2 and syngas derived from biomass gasification and is a key process to …

Hydrogen is considered one of the energy carriers of the future due to its high mass-based
calorific value. Hydrogen combustion generates only water, and it can be used directly as a …

The direct synthesis of dimethyl ether (DME) is considered one of the most attractive routes
for valorizing CO 2 and syngas on a large scale. DME has a high cetane number and its …

Carbon utilization plays a pivotal role in the circular carbon economy approach. However,
CO 2 conversion technologies, including thermocatalytic hydrogenation approaches, entail …

In the present study, four different samples having different acidity were synthesized. Two
MFI-type zeolites having silicon-to-aluminum ratio equal to 25 and 50 were prepared …

Zeolites have been widely employed in fields of petroleum refining, fine chemicals and
environmental protection, but their syntheses are always performed in the presence of …

A monolith supported bifunctional catalyst for the direct conversion of CO 2 to dimethyl ether
was developed and evaluated. The catalyst consists of a layer structured configuration, in …

The one-dimensional (1D) mathematical model of fixed bed reactor was developed for
dimethyl ether (DME) synthesis at pilot-scale (capacity: 25–28 Nm3/h of syngas). The …

Crystalline beta zeolite molecular sieve with SiO2/Al2O3 molar ratio of 28.5 was synthesized
by the hydrothermal crystallization method and examined for methanol dehydration reaction …

The catalytic conversion of captured CO 2 to value‐added fuels can be a promising solution
to mitigate the adverse impact of greenhouse gas CO 2. The recent advancement in …