Enhancing the energy utilization efficiency through designing efficient materials is one of the
most effective measures to combat the ever decreasing of fossil fuels, the deterioration of …

The escalating concerns about traditional reliance on fossil fuels and environmental issues
associated with their exploitation have spurred efforts to explore eco-friendly alternative …

The kinetic of the direct CO 2 hydrogenation to higher hydrocarbons via Fischer–Tropsch
synthesis (FTS) and reverse water-gas shift reaction (RWGS) mechanisms over a series of …

Deactivation of cobalt catalyst supported on carbon nanotubes (CNTs) in Fischer–Tropsch
synthesis (FTS) was investigated by considering different deactivation mechanisms. The …

Synthesis of liquid fuels, mainly gasoline and diesel, by Fisher–Tropsch reactions is a
complex process. Prediction of products distribution as function of carbon number has been …

A new Langmuir–Hinshelwood–Hougen–Watson (LHHW) type kinetic model is developed
for carbon dioxide hydrogenation over a precipitated Fe/Cu/K catalyst in a continuous …

Concepts of the surface excess energy in the present work have been applied to explain the
methane formation in Fischer-Tropsch synthesis by iron catalysts. A series of iron oxide …

The influence of the catalyst particle size in determining Fischer–Tropsch synthesis (FTS)
performance for nano-structured iron catalysts was investigated. The catalysts were …

A series of size dependent kinetic models based on thermodynamic method are developed
for indirect CO 2 hydrogenation to higher hydrocarbons by an iron catalysts via the Fischer …

The iron-based catalyst was prepared by a microemulsion method. The composition of the
final nanosized IRON CATALYST, in terms of the atomic ratio, contains 100Fe/4Cu/2K. The …