Solar thermochemical conversion is an effective method for solar energy storage, and
propane dehydrogenation is one popular technology to generate propylene and hydrogen …

Cyclohexane dehydrogenation in the solar-driven membrane reactor is a promising method
of directly producing pure hydrogen and benzene from cyclohexane and storing low-grade …

Solar energy storage via a thermochemical approach is a promising method to realize the
efficient utilization of discontinuous sunlight. Traditional solar thermochemical conversion …

To efficiently convert and utilize intermittent solar energy, a novel solar-driven ethanol steam
reforming (ESR) system integrated with a membrane reactor is proposed. It has the potential …

A novel methylcyclohexane (MCH) dehydrogenation system driven by solar energy with a
hydrogen permeation membrane (HPM) reactor is proposed in this study. It is a promising …

Dry reforming of methane (DRM) is a promising approach for hydrogen generation and
decreasing CO 2 emission. However, the high reaction temperature of DRM (~ 800° C) has …

In this study, a solar-driven porous bed catalytic reactor (PBCR) is investigated with the aim
of propane reforming and hydrogen production using a clean energy source. The process …

With the rapid development of hydrogen fuel cell vehicles, efficient and convenient
production of green hydrogen is important to reduce carbon emissions. Considering the …

When the steam methane reforming membrane reactor is coupled with trough solar collector
to achieve solar thermochemical energy storage, the dimension of the membrane reactor is …

It is a promising method for hydrogen generation without carbon emitting by ammonia
decomposition in a catalytic palladium membrane reactor driven by solar energy, which …