Today, bi-reforming of methane is considered as an emerging replacement for the
generation of high-grade synthesis gas (H 2: CO= 2.0), and also as an encouraging …

Due to its characteristics, hydrogen is considered the energy carrier of the future. Its use as a
fuel generates reduced pollution, as if burned it almost exclusively produces water vapor …

The hydrogen economy is being pursued quite vigorously since hydrogen is an important
and green energy source with a variety of applications as fuel for transportation, fuel cell …

Hydrogen has become a versatile and clean alternative to meet increasingly urgent energy
demands since its high heating value and renewability. However, considering the hazards of …

The methanol steam reforming (MSR) was one of the promising technologies for high-
efficiency hydrogen production. The key issue for MSR was the development of catalysts. In …

Hydrogen is a promising replacement for fossil fuels since it can be produced using
renewable resources. However, hydrogen storage and transportation are the two significant …

Abstract Ce or Zr promoted CuZn/CNTs (carbon nanotubes) catalysts were synthesized by
microwave-assisted polyol, co-precipitation and impregnation methods and were used to …

Methanol steam reforming (MSR) is a promising way of producing hydrogen. The catalyst is
a key factor in the MSR reaction. This review mainly describes the latest progress in MSR …

Efficient hydrogen production through Methanol Steam Reforming (MSR) is an area of high
importance due to its environmental suitability and superior energy efficiency compared to …

The thermochemical water-splitting method is a promising technology for efficiently
converting renewable thermal energy sources into green hydrogen. This technique is …