(61b) Novel CO2-Selective Membrane for Syngas Applications | AIChE

(61b) Novel CO2-Selective Membrane for Syngas Applications

Authors 

Ng, A. - Presenter, Membrane Technology & Reserach, Inc.


Fossil fuel accounts for three-quarters of worldwide CO2 emissions, of which emissions from power production is the chief culprit. Therefore, the greatest bang-for-our-buck in regard to CO2 emission reduction is by addressing CO2 capture from power plants (conventional coal-fired and natural gas-fired). However, capturing CO2 from these sources is enormously challenging as the partial pressure of CO2 is very low. CO2 from refineries, chemical productions, GTL, CTL and IGCC are available at higher CO2 partial pressure. We can make a dent on our CO2 footprint by addressing these low-hanging-fruits sources today.

Current commercially available CO2-selective membrane used in the natural gas industry is not suitable for syngas application as it does not offer any appreciable selectivity of CO2 over H2. Hence, CO2 capture from syngas is largely dominated by physical absorption systems such Solexol and Rectisol or chemical absorption systems such as amines.

MTR, a supplier of membrane-based separation systems has developed a novel membrane that preferentially permeates CO2 while rejecting H2 and CO. In addition to CO2 removal, this membrane also preferentially permeates H2S over other syngas components, ideal for bulk H2S removal. This novel membrane is capable of removing greater than 90% CO2 at high recovered-CO2 concentration.