Portable Electrochemical Oxygen Concentrator for Battlefield Combat Casualty Care.

Abstract

The primary goal of this overall research and development program is to design and construct a portable electrochemical oxygen concentrator (PECOC) capable of producing nearly pure ( > 98%) oxygen from the ambient atmosphere at room temperature. This novel device relies on the two-electron reduction of oxygen to peroxide at a high area carbon-based, gas-permeable, Teflon-bonded (HAC-GPTB) cathode, which then migrates through a thin solid polymer electrolyte(SPE) membrane to a gas-diffusion (GD) anode, where it is oxidized to yield dioxygen. Two major aspects were emphasized during this first six-month period: the identification of highly active, highly specific electrocatalysts for the two-electron reduction of O2 to peroxide and for the oxidation of peroxide to O2 in acid media and the construction of a prototype stack reactor capable of delivering pure oxygen at levels comparable to those required for field medical applications (3 L/min). Significant progress was made in both of these areas. In particular, a simple surface modifier for platinum was found to promote the quantitative reduction of dioxygen peroxide at small overpotentials in dilute phosphoric acid as evidenced by rotating ring-disk techniques results. Furthermore, a full size PECOC unit built from commercially procured materials was shown to deliver pure dioxygen in several independent trials.

Document Details

Document Type

Technical Report

Publication Date

Mar 01, 1998

Accession Number

ADA347568

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