2. In contrast to conventional
batteries, the nanoFlowcell is
provided with energy in the
form of liquid electrolytes (bi-
ION), which can be stored
away from the cell itself.
The two electrolyte circuits are
separated only by a permeable
membrane. An exchange of
ions takes place as soon as the
positive and negative
electrolyte solutions pass one
another on either side of the
converter membrane.
3.
4. Using nanoFlowcell technology could avoid the emission of 19,250
megatonnes of CO2 every year from the combustion of fossil fuels in
road traffic alone.
Environmentally compatible energy
Long-lasting and recyclable
Safety with certainty
Efficiency