In this article, possibilities of biogas reforming techniques for hydrogen production are
discussed. The consideration of biogas reforming to produce H 2 and fuel cell application …

The discovery of abundant natural gas resources has greatly increased the study of using
methane as a feedstock to produce transportation fuels. Biogas (primarily containing …

Interest in novel uses of biogas has increased recently due to concerns about climate
change and greater emphasis on renewable energy sources. Although biogas is frequently …

The increasing environmental concern on global warming has triggered intensive research
on sustainable utilization of greenhouse gases. CO2 (dry) reforming of methane (DRM) is …

Methane reforming allows the production of synthesis gas (syngas) which is an important
gas mixture feedstock for the production of chemicals and energy carriers. Steam reforming …

Abstract Low temperature steam reforming (400–550° C) for the production of hydrogen
offers significant advantages compared to the conventional process. The milder operating …

Dry reforming of methane (DRM) is an ideal reaction to chemically utilize two important
greenhouse gases, methane and carbon dioxide, but the serious carbon deposition often …

Hydrogen is being explored as a potential energy carrier for power and heat production, as
well as energy storage, making it one of the most significant basic chemicals. In this work …

This study proposes the steam reforming of a synthetic biogas stream containing 200 ppm of
H 2 S, carried out in a non-commercial supported Pd–Au/Al 2 O 3 membrane reactor (7–8 …

Ammonia borane (AB) has received growing research interest as one of the most promising
hydrogen-storage carrier materials. However, fast dehydrogenation of AB is still limited by …