amount of imported petroleum is exp

amount of imported petroleum is expected to rise to 60% by 2025
[3,4]. Since the first oil embargo in the 1970s there has been
interest in developing alternative fuels to power our society
[1,2,5,6]. The decline and stabilization of oil prices following the
embargo decreased the interest in alternative fuels. However, with
substantial uncertainty in the world today, particularly in the
Middle East, increased demand from developing countries has
caused the cost of oil to increase substantially in the past few years
[3]. In addition to cost there are significant environmental
concerns with petroleum usage. Recent analysis estimated that
pollutants may be high enough to affect public health and/or the
environment in areas where 50% of Americans live [7]. Light
vehicles are responsible for a significant amount of carbon dioxide
and volatile organic compound (VOC) emissions, and a majority of
carbon monoxide and nitrogen oxide (NOx) emissions produced in
the United States [8]. To deal with these issues, there has been an
effort to diversify our energy supply particularly for the
transportation sector and to find cleaner fuels. But alternative
fuels are not available everywhere—one location may prefer
ethanol, another may be dominated by biodiesel, or gasoline, or
methane. Most of these fuels require a different engine technology
for efficient operation. However, hydrogen can be produced from
all of these feedstocks as well as many others making it a universal
fuel. Recently there has been international attention on the
development of new hydrogen technologies as a potential solution
to the current fears and to increase energy and economic security.
For example the U.S. Department of Energy has developed a multiyear
plan with aggressive milestones and targets for the
development of hydrogen infrastructure, fuel cells, and storage
technologies [3,9]. The targeted hydrogen cost is $2–4 kg1
(energy equivalent of 1 gallon of gasoline) delivered [3,9]. In
addition to using the hydrogen from these processes as energy
directly in fuel cells, the hydrogen rich streams can be used for the
production of gasoline, methanol, ethanol, and other high value
chemicals. Fig. 1 shows the conceptual flow sheet of hydrogen
production technologies. The purpose of this paper is to provide