Gas-Particle Flows in a Two-Stage Integrated Bubbling-Transport Fluidized Bed for CO₂ Capture

Abstract: Integrated bubbling-transport fluidized bed is a potential reactor for CO 2 capture with solid sorbents. The gasparticle flows in the reactor greatly influence the capture efficiency. This paper studied the gas-particle flow behaviors in this reactor, focusing on the particle circulation and gas entrainment. The results show that the particle circulation rate is mainly limited by the particle-returning capacity of loop seals. Both the particle circulation rate and the gas entrainment rate increase with the tot… Show more

“…Huge processing capacity due to the high flue gas flowrates and uninterruptible operation is one of the major challenges to implement carbon capture based on solid amine sorbents in these units. Therefore, a circulating fluidized bed temperature swing adsorption (CFB-TSA) carbon capture process has become a widely recognized option [10,14,15]. As shown in Fig.…”

Comparison of CO2 adsorption/desorption behaviors of a solid amine sorbent in fixed and fluidized beds

“…Huge processing capacity due to the high flue gas flowrates and uninterruptible operation is one of the major challenges to implement carbon capture based on solid amine sorbents in these units. Therefore, a circulating fluidized bed temperature swing adsorption (CFB-TSA) carbon capture process has become a widely recognized option [10,14,15]. As shown in Fig.…”

Comparison of CO2 adsorption/desorption behaviors of a solid amine sorbent in fixed and fluidized beds

Adsorption mechanisms and regeneration heat analysis of a solid amine sorbent during CO2 capture in wet flue gas

Experimental investigation of bed-to-wall heat transfer in fluidized beds of a Geldart B sorbent particle under a full spectrum of fluidization regime