Ion–conducting ceramic membranes, such as mixed oxygen ionic and electronic conducting
(MIEC) membranes and mixed proton–electron conducting (MPEC) membranes, have the …

The excessive production of carbon dioxide, the greenhouse effect, and the resulting global
warming due to the use of fossil fuels have prompted governments, industry, and …

Thermodynamically limited reactions in membrane reactors for hydrogen generation require
a high hydrogen concentration gradient for separation, which imposes an energy …

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

This work aims at providing insight into the deactivation mechanism of Pd-based
membranes in propane dehydrogenation processes. Thermogravimetric analysis (TGA) …

Efficient solar-driven production of fuels and electricity is significant for achieving a
decarbonized society. However, the existing systems still suffer from drawbacks including …

The direct dehydrogenation of butane (BDH) is emerging as an attractive on-purpose
technology for the direct production of 1, 3-butadine. However, its product yield is hindered …

Driving endothermic thermochemical reactions by employing concentrated solar thermal
energy is a perspective method for efficient utilization of solar energy, and solar reactor is a …

In this work, the fluidized bed membrane reactor (FBMR) technology for the direct
dehydrogenation of propane (PDH) was demonstrated at a laboratory scale. Double …

The separation of H 2 O vapor from (hydrogen-rich) gaseous streams is a topic of increasing
interest in the context of CO 2 valorisation, where the in situ water removal increases product …