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 />
Ammonia Cracking<br />
Sorbent Enhanced Re<strong>for</strong>ming<br />
Ion Transport Membranes<br />
Analytic Power<br />
Kordesch, et al., ZEVCO<br />
35<br />
Built small ammonia<br />
cracker to produce<br />
pure H2<br />
R&D on ammonia<br />
cracker <strong>for</strong> FCVs<br />
Air Products and Chemical, Inc. Demonstration <strong>of</strong> pilot<br />
plant<br />
Air Products, with the USDOE<br />
and Cerametec, Chevron, Eltron<br />
Research, McDermott<br />
Technology, Norsk Hydro, Pacific<br />
Northwest Laboratory,<br />
Pennsylvania State University,<br />
University <strong>of</strong> Alaska, and<br />
University <strong>of</strong> Pennsylvania, is<br />
developing ceramic membrane<br />
technology <strong>for</strong> generation <strong>of</strong> H2<br />
and syngas. This eight year, $86<br />
million program began in 1997<br />
Praxair with Argonne National<br />
Lab<br />
R&D<br />
R&D to develop H2<br />
generator based on<br />
Oxygen and <strong>Hydrogen</strong><br />
Transport Membranes<br />
Promises lower capital costs than<br />
conventional steam methane<br />
re<strong>for</strong>mer.<br />
Promises improved methods <strong>for</strong><br />
hydrogen production from syngas<br />
by providing low-cost oxygen<br />
from air at small scale.
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