Session 24. Oral Presentation for: Novel adsorbent for CO₂ separation from methane

Abstract

Presented on 29 May 2025: Session 24

CO₂ is generally treated and removed as an impurity in methane production, which can be commonly seen in the traditional natural gas industry as well as the emerging biomethane industry. Conventionally, CO₂ is removed using solvent technology, but this process is energy intensive. Second-generation technology such as pressure swing adsorption (PSA) provides the benefits of compactness and low energy requirement, potentially reducing the footprint and operating cost of the CO₂ separation process. In the PSA process, adsorbent is an important element to determine PSA performance including energy consumption, separation recovery and purity. Therefore, a good adsorbent is of paramount important and should have properties such as high CO₂ working capacity and selectivity, crush strength (for high pressure operation), stability and low cost. CO2CRC, in collaboration with University of Melbourne, developed and tested novel adsorbents suitable for CO₂ separation from methane. The adsorbent tested at CO2CRC’s Otway International Test Centre has shown encouraging results for CH₄–CO₂ separation. This paper presents the latest adsorbent development research, which confirms the improved adsorbent (CO2sorb), has high working capacity and selectivity; suitable for the CO₂ separation from high pressure natural gas, especially in high CO₂ content (20–40%), high pressure (30–50 bar) natural gas, including potentially separating CO₂ from syngas in steam methane reforming process. The research also discovered another improved adsorbent with good CO₂ selectivity over methane at low pressure (<2 bar) gas separation, which enable the adsorbent to be used for the CO₂ separation from biogas or landfill.

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