The primary method of large scale hydrogen production is steam methane reforming (SMR)
in the packed bed reactors filled with the catalysts. In these reactors, heat is mostly supplied …

Compact reformers can be used to produce hydrogen for fuel-cell automobiles. The heat of
the mehane seam reforming reaction is provided by methane burning. Generally …

Controlling carbon emissions is crucial for combating climate change, and fuel cell
technologies play a key role in reducing carbon emissions. In this study, a PEMFC system …

Metal-supported solid oxide fuel cell (MS-SOFC) is an emerging technology suitable for
vehicular applications. Utilizing the off-gas from MS-SOFC to realize methane steam …

At present, the treatment of landfill leachate is an unavoidable challenge facing
environmental problems. Incineration is one of the effective methods to treat landfill leachate …

In this paper, an integrated system of solid oxide fuel cell (SOFC) and methane steam
reforming for hydrogen production is proposed. The mathematical model of the coupled …

To overcome the weak point of the gas type heating (failure in heating uniformly and
persistently), liquid type molten salt as a concentration of solar energy was considered as a …

In the chemical industry, hydrogen (H2) production through steam-methane reforming is a
well-established process. With the growing demand for H-fueled vehicles and charging …

The most cost-effective way to produce hydrogen is by steam reforming of methane.
Traditionally, conventional fired burners were used for this purpose, despite their drawback …