the molar mass of 1 molecule of water = 1 H + 1 H + 16 O = 18 gmol-1

mass of 1 litre of water = 1 kg

Michael Farraday has shown that 1 liter of HHO can be produced

in 1 hour using 2.34 watts or 2.34 watt hours.

Michael Faraday was an exceptional and highly respected

researcher who investigated the electric current needed to convert

water into hydrogen gas and oxygen gas by electrolysis. His results

are accepted by pretty much every scientist everywhere. While he

expressed the results of his work in terms which would be meaningless

to the average person, his result is that an electrical input of

2.34 watts produces one litre of hydroxy gas in one hour.

and you are correct

The enthalpy of combustion for hydrogen is 286 kJ/mol

but 2.34 watts delivered over a 1 hour time period is only 8424 J

it would take 1800 hours to convert 1 liter of water into HHO

using 2.34 watts

but durring the 1 hour we can convert 1/1800 liters of water

into HHO using 8424 J

1 kg / 1800 = .000555 grams of water

--------------------------------------------------------

now for the energy we can get back

The molar mass of water is 18.01528 gmol-1

Avogadro's constant is 6.0221415 × 1023

So the mass of one molecule is

18.01528 gmol-1 ÷ 6.0221415 × 1023 = 2.991507 × 10-23g

Which is 2.991507 × 10-26kg

or: 0.00000000000000000000000002991507kg

so we determine the number of water molecules we have converted

into HHO durring the 1 hour by dividing the mass of 1 molecule

of water by the mass that was converted in the 1 hour.

.000555 kg of water / 0.00000000000000000000000002991507 kg 1 molecule of water =

= 18552565602540531505933.4781882 water molecules

by multiplying the number of water molecules by the 286 kJ/mol

we get 5306033762326592010696974761.8252 J

we used 8424 J we got back 5306033762326592010696974761.8252 J

now that was me using your 286 kJ/mol and Farradays 2.34 watt hours per liter HHO

how bout that !!!

thats probably why they use hydrogen and oxygen to launch the space shuttle

instead of gasoline.