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 …

Catalytic naphtha reforming process is a vital process for refineries due to the production of
high-octane components, which is intensely demanded in our modern life. The significance …

Minimizing CO 2 emission into the atmosphere to prevent climate change has required
immense efforts from us. Flue gases from fossil fuel-based power plants and many heavy …

Tri-reforming of methane (TRM) emerged as an attractive approach for syngas production
that combines the methane steam reforming (SMR), dry reforming (DRM) and partial …

In the fossil‐fuel‐based economies, current remedies for the CO2 reduction from large‐scale
energy consumers (eg power stations and cement works) mainly rely on carbon capture and …

With industrial informatization, rich data frameworks provide the possibility of efficient design
and global optimization of methane to hydrogen processes. However, the high coupling …

This study explores the optimization of membrane reactor configurations to enhance
hydrogen production through CH 4 tri-reforming. The investigation employs ceramic …

Coal to ethylene glycol (CTEG) technology can effectively alleviate the shortage of ethylene
glycol, however, is criticized by severe greenhouse gas emissions. This study proposed four …

The design trade-offs between thermodynamics and economics for thermal systems can be
studied with the aid of multi-objective optimization techniques. The investment costs usually …

Assessment of the recent research on the side-feeding strategy in the methane tri-reforming
reactor, suggests that this procedure can be a beneficial method for producing syngas. In the …