Litcius/Paper detail

Energy- and cost-efficient CO2 capture from dilute emissions by pyridinic-graphene membranes

Marina Micari, Kuang‐Jung Hsu, Stefania Bempeli, Kumar Varoon Agrawal

2025Nature Sustainability7 citationsDOIOpen Access PDF

Abstract

Abstract Membrane-based carbon capture offers an energy-efficient and environmentally friendly alternative to conventional absorption-based processes, yet adoption remains limited by its performance with dilute CO 2 sources such as natural gas power plants. Here we present a techno-economic assessment of pyridinic-graphene membranes—porous graphene membranes hosting pyridinic nitrogen—that yield increasingly high CO 2 permeance and selectivity as CO 2 concentration in the feed decreases. This unique behaviour substantially reduces energy consumption, process footprint and capture costs, even when considering the non-ideal effects such as concentration polarization and pressure drops. Using uncertainty-aware cost modelling, including membrane cost, electricity prices, contingency factors and learning curves, we show that capture costs can reach US$50–100 per ton CO 2 for natural gas power plants and as low as US$25–50 per ton CO 2 for coal and cement plants, positioning this technology favourably against state-of-the-art capture processes. Our work bridges material innovation with process optimization, highlighting the role of advanced membrane materials and process design in cost-effective carbon capture for diverse industrial sectors.

Topics & Concepts

PermeanceCarbon footprintProcess engineeringNatural gasWaste managementCoalElectricityMembraneFossil fuelEnvironmental scienceWork (physics)Electricity generationGreenhouse gasProcess (computing)Carbon fibersPower stationMembrane technologyYield (engineering)Efficient energy useCarbon capture and storage (timeline)TonChemistryCarbon dioxideEnvironmentally friendlyBiomass (ecology)Process costingRenewable energySubstitute natural gasEngineeringMaterials scienceProcess designCarbon Dioxide Capture TechnologiesMembrane Separation and Gas TransportCatalysts for Methane Reforming