Steam reforming of natural gas is the dominant process for large–scale hydrogen
production. The process is characterized by high energy requirements and high carbon …

It is urgent to reduce the emission of carbon dioxide (CO 2) into the atmosphere and thereby
mitigate climate changes. To implement the industrial scenario of carbon capture and …

Li 4 SiO 4 is a promising solid sorbent for high-temperature CO 2 capture due to the high
and stable CO 2 adsorption performance. It is required to possess good mechanical …

In this study, a novel one-step graphite moulding pelletization method was used to produce
porous Li 4 SiO 4 adsorbent pellets conveniently. The produced pellets were primarily …

Sorption-enhanced catalysts are bifunctional materials consisting of a heterogeneous
catalyst affixed to a solid sorbent with a combined capacity to selectively capture and convert …

Li 4 SiO 4 sorbents have received extensive attention in the field of high-temperature CO 2
capture due to lower regeneration temperatures and good cyclic durability. The granulation …

Li 4 SiO 4 has shown great prospects for cyclic high-temperature CO 2 capture due to its
excellent stability, high capacity and low regeneration temperature. However, dense …

An excessive amount of CO2 is the leading cause of climate change, and hence, its
reduction in the Earth's atmosphere is critical to stop further degradation of the environment …

In this work, spherical Li 4 SiO 4 pellets were produced via an extrusion–spheronization
technique. This pelletization process caused the destruction of the original porous structure …

Li 4 SiO 4 is considered as one of the most promising materials for post-combustion CO 2
capture at high temperature due to its inherent merits. To avoid elutriation in practical …