PCI is developing water gas shift and selective CO oxidation (aka PROX) catalytic reactors for integration into fuel processing and fuel cell power generation systems.
PCI’s Water Gas Shift and PROX technologies developed under NSF, Navy and internal programs have demonstrated highly selective conversion of CO in an extremely small package. The Water Gas Shift technology reduces CO concentration in the reformate stream to ~ 0.5% (dependant upon system specifications) with low methanation. PCI’s PROX technology further reduces the CO concentration to below 10 ppm, while consuming less than 3% of the hydrogen in the reformate. Technology attributes are highlighted in the table below.
Attributes
Parameter
WGS
PROX
Power Density (kW/L)
>25
>30
Specific Power (kW/Kg)
>28
>35
CO Concentration Output (%)
0.5%
10 ppm
Transient
[10-100% power] (Seconds)
10
3
Start-up (Seconds)
<30
<30
Assumption: 18 SLPM H2 required for 1 kWe from fuel cell
All fuel processing reactors are customized to optimize performance within the fuel processor/fuel cell system.
Contact PCI to learn more about how our solutions may be adapted for your needs.