Post by
Wangotango67 on Feb 14, 2023 2:40pm
SOMEONE LIKES THE STEAM POST.... ( giggles )
Which begs...
would this process work same with, oxide magnesium ?
In the ( video ) they use - actual magnesium metal.
The difference betwene a ocide and metal is.... oxygen.
Not hard to test thids with an oxide, and see if the oxygen would burn off upon external heat
It's almost like the steam is, same as, electrolysis....
parting the hydrogen away from the oxygen in water...
If there's an extra oxygen attached to the oxide, along with ( water comprised of ( H + O )
In the video, the test is performed in a test tube... with small vent hole.
This acts as a presure chamber...
Only releasing the gases.
I would say, there could be a brief window where,
hydrogen and oxygen are blended just at the right ( timing ) before recondensing, and is ignitable
as a blended gas of ( H + O )
What is most intruiging is...
Most hydrgoen tests online ( youtube ) show a weak flame flow...
Lazy gas...
While this video - in former post, shows an accelerated flame with much more force.
Suggesting, the oxygen might have an oxidative effect inducing the btu power of hte flame.
Even as much as, some oxide has blended with the water - creating a small percentage of,
magnesium hydroxide, then, vapored to steam - adding a punch value.
Pu this in a ( hypothetical context ) it could mean...
The magnesium acts similar to a carbon punch heat value...
Minus the carbon ( co2 ) emissions.
If at all accurate -
one might be able to measure the initial - pre and post testing of -
water ( initial )
Mg oxide ( initial )
gas prodiuced
mg loss
mg that hydrolixed left behind in water
hydrogen loss and oxygen loss in steam...
vs energty produced
vs energy produced in btu and temp comparing
typical hydrogen vs mg in water to steam
did the mg steam produce a higher heat ?
was it attributed to some mg oxides
was it attributed to a oxygen blened at ciritical moment such as in a carborator ?
Do we have an mg salt, or an oxide in Driftwood ?
If salt.. .it would still work using an electrolysis... but would it with steam ?
If oxide,... would the extra oxygen attached to the oxide inhibit the release of hydrogen ?
or does it accentuate the fuel with an extra oxygen, adding punch ?
And... a potential oxdie that did synthesize into a hydroxide adding punch in btu ?
If a portion of the oxdie did convert to a hydroxide, how much ?
Such is the loss factor...
Now... once al lthe water andhydrogen has split using the heat steam method...
A good portion of the oxide should still be present... god forbid someone heated the testtube
with no water, and altered the oxide.
One would have to not allow the water to delplete to nothing, but add more water,
to see if the remaining oxide has same effect as original test... same splittting capability,
same gas produced.
If so... holy shhh.....
it would be a wonderful breakthrough...
very limited mg oxide would be needed ot prodfuce a - GREEN HYDROGEN...
WITH PERHAPS A - SMALL FACTION OF - MG - WHICH ADDS MORE PUNCH
- HEAT BTU
- POWER IF IN ENGINE
Such a fuel would cater to several kinds of, projects.
Vehicles... Direct heat energy... Turbine to produce electricity.
Added oxygen and potential small loss of mg adding more punch power
is exactly the kind of energy that would - surpass - other forms of gas... with no carbon.
Making this form of energy... a super breed - mg hydrogen.
Cheers....