Enhanced Hydrocarbon Poisioning Resistance of Proton Exchange Membrane Fuel Cells

 

2023-101
   
Technology Overview

Dr. Angelopoulos has invented a coating process that protects PEMFC electrodes from carbon monoxide poisoning. These coatings overcome the challenges related to durability and performance degradation of PEMFCs in the presence of hydrocarbons. The coatings can operate in low temperature PEMFCs (below 100oC) or be used to lower the operating temperatures of acid doped PEMFCs.

Background

The proton exchange membrane fuel cell (PEMFC) has shown great promise as a sustainable and highly distributed source of energy. However, currently available PEMFCs experience durability and performance degradation when hydrogen fuel that is derived from petroleum processing (gray hydrogen) is used. Whether intended or accidental, the presence of even minute quantities of hydrocarbons in fuel can negatively impact PEMFC performance through carbon monoxide poisoning of the electrode. Sufficient hydrocarbon to damage PEMFC electrodes can even be present as airborne contaminant in the surrounding air or other impurities within the fuel cell itself.

Advantages and Benefits
  • Prevents carbon monoxide in PEM fuel cells from ruining the fuel cell electrode.
  • Provides resistance to hydrocarbon poisoning.
  • Allows for PEM fuel cells to be more efficient than those currently available.
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Patents
Title Country Serial No. Patent No. File Date Issued Date
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Inventor(s)
Contact
Madison Bourbon
Sr. Licensing Associate, Physical Sciences
Lead Inventor
Anastasios "Taso" Angelopoulos
Keywords
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