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The
Unique Features of the "Squirrel" Design
The Novel Flow Architecture for Stacks of Fuel Cells:
The flow architecture of the new Cellennium design is shown in Fig.
3, which should be compared with Fig. 2. |
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Fig. 3. The flow architecture in a Cellennium
stack of cells.The cells are placed
horizontally in a vertical pile. The electrolytes are fed upwards
through the
cells in series. |
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Electrolyte Flow
The electrolytes are fed through the stack of cells in series instead
of in parallel as in conventional designs.
Cell and Stack Orientation
The cells are place horizontally in a vertical stack with the electrolyte
flow upwards. The stack is compact and structurally stable.
Cell Components
The cells are formed from molded structural components designed for
speedy "LEGO" style leak-tight assembly. Channels in the
moldings provide paths for the flow of the electrolytes between the
cells (shown schematically as external channels in Fig. 3).
Power Conversion
The Squirrel technology includes novel, highly efficient "induction-less"
methods of charging the battery with any DC or AC input and delivering
any DC or AC output free from harmonics. This breakthrough technology
will enable cost-competitive means to convert various forms of electricity
very efficiently. |
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The
World's First " Inductionless"
Electrochemical Voltage and Frequency
Transformer with Integrated Storage |
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