The hydrogen molecules will
naturally gravitate to the negatively charge electrode (the cathode) and oxygen
will be attracted to the positively charged electrode (the anode). Because there
are two hydrogen molecules to every one oxygen molecule in the chemical compound
of water (H20), there will be twice the amount of hydrogen extracted to oxygen.
The extracted molecules then form into HHO (also known as oxyhydrogen), which is
a gas made up of two hydrogen and 2 oxygen molecules. This gas is highly
volatile and when combusted can produce 241.8 kJ of energy for every mole of H2
burned, however not enough of this can be extracted to run an engine alone. In
order for an engine to run using HHO it must also be combined with a small
amount of regular petrol or diesel.
So, fuel extracted from water can currently only be used as a supplement to
conventional fuels, but it can help to reduce the amount of fuel used, and to
increase engine efficiency and performance.
Panama Panama City
Kenya, Nairobi,
Gold Coast Queensland Australia
Dominica, Roseau,
Austria Vienna
Tonga Nuku'alofa
Moe, Victoria,
St. Kitts and Nevis Basseterre
Greece Athens
Pomona California USA