Review of Small Stationary Reformers for Hydrogen Production
Review of Small Stationary Reformers for Hydrogen Production
Review of Small Stationary Reformers for Hydrogen Production
Create successful ePaper yourself
Turn your PDF publications into a flip-book with our unique Google optimized e-Paper software.
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
Change language