Abstract
Abstract CAER-S2 solvent system developed in the Center for Applied Energy Center at the University of Kentucky has the advantages of fast CO 2 removal rate, high thermal stability, low volatility, and commercial quantity available. Vapor liquid equilibrium measurement shows that the solvent has a lower partial pressure than that of MEA at scrubber temperatures. Such feature makes the solvent a promising candidate for carbon capture from natural gas-fired flue gas which has low CO 2 concentration. Mass transfer coefficients of CO 2 in the solvent system are tested using a wetted-wall column with simulated gases at the scrubber condition. Experimental results indicate that the mass transfer coefficient increases with the increasing of temperature over the studied range, which is different from the studies on MEA. Such results suggest that the solvent is preferable to be operated at elevated temperature in scrubber at which physical mass transfer limitation is minimized without sacrificing too much driving force.
Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
