Litcius/Paper detail

Process-informed adsorbent design guidelines for direct air capture

John Young, Fergus Mcilwaine, Berend Smit, Susana García, Mijndert van der Spek

2022Chemical Engineering Journal77 citationsDOIOpen Access PDF

Abstract

Direct air capture using solid adsorbents is a proven technology critical to reducing our net greenhouse gas emissions to zero and beyond. Currently, academic research into the technology mainly focuses on the development of new adsorbents. However, there is a discord between the adsorbent design and process performance. Many materials scientists focus on maximising metrics such as the CO2 capacity of their adsorbent. Here, we combine detailed process modelling, machine learning, and extensive global sensitivity analysis, which entails varying all of the model parameters together, on a direct air capture process to show that the dry CO2 adsorption capacity does not influence process performance for an amine-functionalised adsorbent operating in a temperature vacuum swing adsorption (TVSA) process, while it is important in a steam-assisted TVSA (S-TVSA) process. In fact, adsorption kinetics, density, and thermal conductivity are all critical attributes to obtaining a low energy penalty and reduced costs. The analysis also highlights the importance of heat transfer, directing process engineers to (alternative) adsorber designs that maximise this. By an in-depth evaluation of how process performance indicators are affected by materials properties and process operating parameters, this work provides guidance to both material scientists and process engineers towards the design of a “unicorn adsorbent” and intensified DAC processes. This will improve the performance of solid adsorbent direct air capture and help drive down the costs of this vital technology to avert the worst impacts of climate change.

Topics & Concepts

AdsorptionProcess engineeringProcess (computing)Vacuum swing adsorptionPressure swing adsorptionGreenhouse gasProcess designEnvironmental scienceComputer scienceMaterials scienceWaste managementEngineeringProcess integrationChemistryBiologyOrganic chemistryOperating systemEcologyCarbon Dioxide Capture TechnologiesPhase Equilibria and ThermodynamicsAdsorption and Cooling Systems
Process-informed adsorbent design guidelines for direct air capture | Litcius