Cost-effective CO2 capture based on in silico screening of zeolites and process optimization. Academic Article

abstract

• A hierarchical computational approach is introduced that combines materials screening with process optimization. This approach leads to novel materials for cost-effective CO2 capture. Zeolites are screened using shape, size, and adsorption selectivities. Next, process optimization is introduced to generate a rank-ordered list based on total cost of capture and compression. We not only select the most cost-effective materials, but we also attain the optimal process conditions while satisfying purity, recovery, and other process constraints. The top ten zeolites (AHT, NAB, MVY, ABW, AWO, WEI, VNI, TON, OFF and ITW) can capture and compress CO2 to 150 bar from a mixture of 14% CO2 and 86% N2 at less than $30 per ton of CO2 captured. Several zeolites have moderate selectivities, yet they cost-effectively capture CO2 with 90% purity and 90% recovery using a 4-step adsorption process. Such nonintuitive selection demonstrates the necessity of combining materials-centric and process-centric viewpoints.

authors

• Hasan, M M Faruque

published proceedings

• Phys Chem Chem Phys

altmetric score

• 2

author list (cited authors)

• Hasan, M., First, E. L., & Floudas, C. A.

citation count

• 108

complete list of authors

• Hasan, MM Faruque||First, Eric L||Floudas, Christodoulos A

publication date

• October 2013

publisher

• Royal Society of Chemistry (RSC)  Publisher

published in

• Physical Chemistry Chemical Physics  Journal

keywords

• 13 Climate Action
• Clinical Research
• Health Services

PubMed Central ID

• 24037279

Digital Object Identifier (DOI)

• 10.1039/c3cp53627k

start page

• 17601

end page

• 17618

volume

• 15

issue

• 40

URL

• http://dx.doi.org/10.1039/c3cp53627k

user-defined tag

• 13 Climate Action