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Demonstration of Electrochemically-Driven CO<sub>2</sub> Separation Using Hydroxide Exchange Membranes

Stephanie Matz, Brian P. Setzler, Catherine M. Weiss, Lin Shi, S. Gottesfeld, Yushan Yan

2020Journal of The Electrochemical Society17 citationsDOIOpen Access PDF

Abstract

Hydroxide exchange membrane fuel cells (HEMFCs) are a potentially lower-cost hydrogen fuel cell technology; however, ambient levels of CO 2 in air significantly reduce HEMFCs’ performance. In this work, we demonstrate an electrochemically-driven CO 2 separator (EDCS) which can be used to remove ambient levels of CO 2 from air upstream of the HEMFC stack in fuel cell vehicles, protecting it from CO 2 -related performance losses. The EDCS operating window was explored for current density, anode flow, and cathode flow with respect to its impact on CO 2 separation performance. Additionally, gas-phase mass transport was improved by selecting flow fields and gas diffusion layers conducive to the EDCS operating regime. The use of a carbon-ionomer interlayer at the cathode was explored and improved CO 2 removal performance from 77.7% to 98.2% at 20 mA cm −2 . An analytical, 1-D model is used to explain the experimental observations and design improvements. A single-cell, 25 cm 2 EDCS using the aforementioned improved design demonstrated greater than 98% CO 2 removal at a cathode flow rate of 1300 sccm for 100 h with 2.7% hydrogen stack consumption.

Topics & Concepts

Separator (oil production)CathodeAnodeStack (abstract data type)Volumetric flow rateHydrogenMembraneChemical engineeringHydroxideAir separationMaterials scienceChemistryAnalytical Chemistry (journal)ElectrodeChromatographyOxygenEngineeringComputer sciencePhysical chemistryThermodynamicsBiochemistryPhysicsOrganic chemistryProgramming languageQuantum mechanicsFuel Cells and Related MaterialsAdvancements in Solid Oxide Fuel CellsCO2 Reduction Techniques and Catalysts
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