The widespread use of non-renewable energy has caused serious environmental problems
such as global warming and the depletion of fossil fuels. Hydrogen, as a well-known carbon …

At the heart of catalytic reforming reactions is the surface mechanism. Over the past decade,
good progress has been made in develo** an understanding regarding surface reaction …

Thermal approaches have played a dominant role in driving chemical reactions within the
chemicals and fuels industries, benefiting from ongoing enhancements in efficiency via heat …

Growing apprehensions on greenhouse gas emissions, global warming, and pollution
problems are directly related to fossil fuels consumption. To counteract these environmental …

One of the main challenges facing power generation by fuel cells involves the difficulties
related to hydrogen storage. Several methods have been suggested and studied by …

This tutorial review deals with the catalytic reformation of ethanol and glycerol to produce
hydrogen that can be used as an energy carrier in a fuel cell. Both the worldwide production …

Dry reforming of methane is one of the few chemical reactions which can effectively convert
carbon dioxide (CO 2), a major green-house gas, into a valuable chemical precursor …

The earth natural carrying capacity is being surpassed, and there is an urgent need to
develop new alternatives, notably in regards to energy supplies, carbon dioxide emissions …

Catalytic steam reforming of bio-ethanol in presence of oxygen for hydrogen production was
studied over Ni/CeO 2–ZrO 2 and Rh–Ni/CeO 2–ZrO 2 catalysts. The catalysts were …

In this work, thermodynamics was applied to investigate the glycerol autothermal reforming
to generate hydrogen for fuel cell application. Equilibrium calculations employing the Gibbs …