Kinetics of spontaneous liquid-gas imbibition in carbon molecular sieves

used for O₂/N₂separation

Xinyu Jia；Shaoping Xu; Yuanyuan Cong

Highlights

• The kinetics of spontaneous water-O2/N2 imbibition in CMSs was investigated.

• The microporous textures of CMSs was estimated based on the kinetics.

• A new assessment method for O2/N2 separation performance of CMSs was established.

Abstract：The kinetics of spontaneous liquid-gas imbibition in micropores of carbon molecular sieves (CMSs) used for air separation has been investigated. Based on the kinetics, the microporous textures of CMSs could be estimated, and a new assessment method for O₂/N₂ separation performance of CMSs in pressure swing adsorption (PSA) was established. Water was chosen as the imbibition liquid probe, and N₂and O₂ were chosen as the gas probes. The pseudo-second-order (PSO) kinetic model and the linear driving force (LDF) model were employed to confirm that the rate-limiting steps of the spontaneous water-O₂/N₂ imbibition were mainly attributable to the surface adsorption of water and the diffusion of gas through the micropore entrence or interior in CMSs. Water molecules invade into the narrower micropore mouths prior to the wider micropore mouths. An O₂/N₂ selectivity coefficient K was established to assess the air separation performance of CMSs. When the K value is equal to zero, the size distribution of micropore mouths in CMSs is the fittest for the air separation and the highest N₂ production can be obtained. But with K gradually deviating zero, the air separation performance of CMSs decreases.