Review of Small Stationary Reformers for Hydrogen Production
Review of Small Stationary Reformers for Hydrogen Production
Review of Small Stationary Reformers for Hydrogen Production
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Re<strong>for</strong>mer Type Companies, Organizations Development Status Issues For Use In <strong>Hydrogen</strong><br />
Refueling Station Applications<br />
Partial Oxidation<br />
Arthur D. Little/Epyx/Nuvera Development <strong>of</strong> partial Partial oxidation systems <strong>of</strong>fer<br />
oxidation re<strong>for</strong>mer <strong>for</strong> lower cost <strong>for</strong> re<strong>for</strong>mer stage, and<br />
fuel cell applications. faster start-up. Issue is cost <strong>of</strong><br />
R&D on multi-fuel<br />
and gasoline fuel<br />
purification stage.<br />
processors <strong>for</strong> FCVs. <strong>Hydrogen</strong> Burner Technology is<br />
demonstrating a refueling station<br />
<strong>Hydrogen</strong> Burner Technology, Commercially available <strong>for</strong> hydrogen vehicles based on<br />
Inc.<br />
POX re<strong>for</strong>mer <strong>for</strong> fuel<br />
cells and stand-alone<br />
H2 production.<br />
Installing NG->H2<br />
refueling station at<br />
Thousand Palms<br />
its POX system.<br />
Argonne National Laboratory<br />
USDOE Office <strong>of</strong> Transportation<br />
Technologies is supporting<br />
development <strong>of</strong> 50 kW fuel<br />
processor/FCV systems by:<br />
<strong>Hydrogen</strong> Burner Technology<br />
Epyx/Nuvera<br />
McDermott Technology, Inc.<br />
and Catalytica<br />
31<br />
R&D on POX re<strong>for</strong>mer<br />
<strong>for</strong> FCVs<br />
RD&D <strong>of</strong> fuel<br />
processors <strong>for</strong> 50 kW<br />
vehicle fuel cell power<br />
plant