Hydrogen fuel cell technology's potentially strong future as a fuel for automobiles and various other applications is likely to be weakened by issues regarding its availability and the expenses involved in storage. Bio-based products such as ethanol are expected to open up new areas for research.
Hydrogen fuel cells reduce pollution by emitting water vapor in place of carbon dioxide. However the prevalent method of producing hydrogen from hydrocarbons, though economical, creates pollutants at the manufacturing site.
"Biomass material-based fuel cells are a better solution than power fuel cells since hydrogen is expensive and dangerous to handle," notes Technical Insights Analyst Al Hester. "More research should be devoted to ethanol since it is environmentally friendly and based on renewable resources."
Conversion of biomass materials such as ethanol into hydrogen is a more cost-efficient method to power fuel cells. Researchers believe that inter-metallic compounds could be used beneficially in fuel cell electrodes to oxidize ethanol. These materials are not alloys but have ordered structures wherein atoms are very specifically arranged.
Electrolysis of water using hydroelectric or nuclear, wind, or solar power also produces hydrogen. However, in the present economic condition, these methods may not prove to be cost effective.
The need for cheaper and more efficient means to power fuel cells has resulted in investment in extensive research. The U.S. Department of Energy (DOE), for instance, awarded Cornell University $2.25 million over three years, to devote research efforts to cells based on other fuels, including ethanol.
Research should also be extended to resolve technical problems so that systems that can handle the explosive gas are developed. Safety is a non-issue while considering ethanol in fuel cells. The challenge will be to reduce the cost of producing ethanol from corn and increase tax advantages in order to enable it to compete with fossil fuels.
"Current production processes, such as partial combustion of natural gas or electrolysis of water require cheap fossil fuels or electrical power," notes Hester. "In such a scenario, light-induced biological hydrogen production is a potentially cost-effective system."
This process uses enzyme systems present in photosynthetic bacteria, cyanobacteria, and green algae such as Chlamydomonas reinhardt. However, there is a need to detect microorganisms that are immune to oxygen and that would prove to be good alternatives to produce hydrogen commercially.
Researchers at the National Renewable Energy Laboratory have developed a sensor that detects hydrogen-producing microorganisms through a screening process. The system uses a sensitive film that changes color at a point where the organism being tested indicates hydrogen presence.
Frost & Sullivan
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Another Twist In The Field Of Superconductivity
Montreal QC - Mar 24, 2004
Researchers at the U.S. Department of Energy's Brookhaven National Laboratory have discovered an interesting type of electronic behavior in a recently discovered class of superconductors known as cobalt oxides, or cobaltates. These materials operate quite differently from other oxide superconductors, namely the copper oxides (or cuprates), which are commonly referred to as high-temperature superconductors.
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