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"water electrolysis hydrogen", "hydrogen water electrolysis", zinc air expert, "zinc air expert", hydrogen expert, "hydrogen expert", doppstein, DoppStein, Robert Dopp, Sharon Stein, electrochemistry, fuel cell, battery, portable power, nanocatalyst, expert, nano, catalyst, hydrogen, battery consultant, Fuel cell consultant, hydrogen consultant, platinum, gas electrode, zinc air, Battery Research Laboratory, Fuel Cell Research Laboratory, hydrogen Research Laboratory, sculptural ceramics, Quantum Sphere, Inc (QSI)
HYDROGEN GENERATION VIA WATER ELECTROLYSIS USING HIGHLY EFFICIENT NANOMETAL ELECTRODES
Energy supplies in the 21st century will be challenged as fossil fuel reserves decline; hu-man consumption increases, and greenhouse gasses accumulate to further damage the at-mosphere. These challenges will be met by innovative solutions that enable the hydrogen economy; to replace petrochemical fuels with hydrogen for use in fuel cells and internal combustion engines. One of the most difficult challenges is to produce hydrogen at a cost competitive with current fuel pricing (fossil or natural gas).
To accelerate adoption of the Hydrogen Economy, hydrogen must be produced from a clean source and at rates and efficiencies competitive with gasoline. DoppStein Enter-prises (DSE) has developed a paradigm changing technology to increase the efficiency of water electrolysis using high surface area nanometal catalysts particles (3-50 nm). This new concept is to create an electrochemical fluidized bed reaction (FBR) surface using the a porous current collector and the enhanced surface area and catalytic reactivity of the catalysts. This unique design exceeds a rate of 5 amps/cm2 at 93% energy efficiency, which is equivalent to 2 gge/hr/m2, 21 NM3/hr/m2 and 42 kWh/kgH2.
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