Abstract
Biogas is an important renewable energy source, but its ppm-level hydrogen sulfide (H2S) component must be removed from the gas mixture dominated by CO2 and CH4. In this work, a tertiary-amine-based “molecular basket” sorbent with a mesoporous silica as support was found to be effective for the selective hydrogen sulfide (H2S) removal from gas mixtures simulating biogas with a high CO2 concentration up to 40 vol %. Polyallylamine (PA), polyethylenimine (PEI), and tetramethyl hexanediamine (TMHDA) were used as primary, secondary, and tertiary amines to prepare the SBA-15 supported sorbents, respectively, and their H2S sorption performances were evaluated in a flow system in the absence and presence of CO2. The tertiary-amine-based sorbent, TMHDA/SBA-15, can selectively remove H2S in the presence of CO2, and the highest sorption capacity was achieved at 15 wt % TMHDA loading which is close to its monolayer coverage on the surface. More importantly, about 90% of the capacity could be maintained on TMHDA/SBA-...
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