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Scaling up 3D printed hybrid sorbents towards (cost) effective post-combustion CO2 capture: A multiscale study

Shreenath Krishnamurthy, Raf Roelant, Richard Blom, Bjørnar Arstad, Zuoan Li, Marleen Rombouts, Vesna Middelkoop, Adolfo Benedito Borrás, Lapo Naldoni

2024International journal of greenhouse gas control15 citationsDOIOpen Access PDF

Abstract

A 3D-printed sorbent containing polyethylene-imine and multi-walled carbon nanotubes (PEI-MWCNT) was studied for post-combustion carbon capture. In this work, the adsorbent was printed on a kg scale and characterized for CO2 adsorption through lab experiments. A 6-step VSA process was simulated using the lab data to capture CO2 from a representative 800 MW power plant. The adsorbent captured >70 % of the CO2 and 95 % CO2 purity was achieved. The levelized cost of electricity (LCOE) was 130.2 $/MWh and the costs of CO2 captured and avoided were 80 and 100.12 $/tonne. However, a zeolite 13X-activated carbon (13X-AC) monolith achieved a lower LCOE of 118.1 $/MWh, with the captured and avoided costs being 63 and 78.4 $/tonne, respectively. The LCOE value for the 13X-AC monolith was 5.1 % lower than a reference-packed bed system with Zeolite 13X pellets. The corresponding cost values were lower by 9.1 % and 13.9 %, respectively for the costs of CO2 captured and avoided. The lab experiments on the PEI-MWCNT sorbent revealed that further work is necessary to improve the thermal stability and stability with long-term storage of the precursor paste.

Topics & Concepts

Cost of electricity by sourceSorbentCharMaterials scienceAdsorptionChemical engineeringZeoliteMonolithWaste managementActivated carbonCombustionProcess engineeringChemistryElectricity generationPyrolysisOrganic chemistryEngineeringCatalysisPower (physics)Quantum mechanicsPhysicsCarbon Dioxide Capture TechnologiesMembrane Separation and Gas TransportPhase Equilibria and Thermodynamics
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