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 …

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 …

Tri-reforming of methane (TRM) allows the production of syngas with a low environmental
impact, an optimal energetic consumption, and a modular H 2/CO molar ratio. However …

CO2 emissions from the consumption of fossil fuels are continuously increasing, thus
impacting Earth's climate. In this context, intensive research efforts are being dedicated to …

This paper discusses a preliminary design and a techno-economic analysis of a process that
produces liquid hydrocarbon fuels from biomass through a combined biochemical and …

This work has exploited the effects of silica on magnesium aluminum silicate supported
NiCe based catalysts (NiCe/MgAlSi) prepared using sol-gel method followed by incipient …

Methane tri-reforming (MTR) is an innovative approach for the utilization of flue gases. In this
study, a new nickel-alumina-based catalyst derived from metal-organic frameworks (MOFs) …

In recent times, there has been an amplified interest in exploring fresh applications of
biogas, attributed to the rising concerns surrounding climate change and an enhanced …

The catalyst industry generates approximately $20 billion every year globally and plays a
major role in the energy production sector. Traditional industrial catalysts (eg, pellets) …

Tri-reforming methane with CO2, O2, and H2O mixtures requires a delicate balance of dry-
reforming, partial oxidation, and steam-reforming reactions to improve the CO2 conversion …