Dry reforming of light hydrocarbons such as methane has gained interest due to the
consumption of greenhouse gases like methane and CO 2 and production of syngas (H 2 …

Abstract The supercritical CO 2 (S-CO 2) Brayton cycle has drawn much attention in the field
of thermal cycles due to its merits of high efficiency, simple layout and compact …

Hydrogen is a fuel with immense potential of satisfying the need for environmentally benign
energy sources, and waste-derived hydrogen is promising in diverting waste streams away …

Sustainable energy production is a worldwide concern due to the adverse effects and limited
availability of fossil fuels, requiring the development of suitable environmentally friendly …

In the last few decades, the development of biomass energy has become a key research
focus to press the emissions of greenhouse gas. Syngas production from biomass tar …

The major obstacles for catalytic cracking of biomass tar have been known as the low tar
removal efficiency and catalyst deactivation. In view of this, the novel Ni nanoparticles …

This study focused on the pyrolysis behavior of biomass tar (toluene as model compound)
via Ni-Fe catalyst, and enhanced the generation of syngas in the CO 2 atmosphere. The …

Value-added chemicals originating from biomass gasification in the presence of advanced
catalysts have proved to be promising for valuable chemical generation via deep …

Sulfur and coking tolerance of Ni-based dry reforming catalysts were examined. Catalysts
utilizing both Ce/Zr and Ce/La oxide supports, some with additional Co, were tested. Long …

Catalytic reforming is a promising technology for the removal of tar from syngas. However,
due to the presence of other impurities such as H 2 S, HCl, HBr, siloxanes, alkali metals, and …