Hi All,
This is a little off topic but worth noting.
A little experiment that I tried just after I had finished making dinner on our outdoors BBQ last night.....
NOTE - DO NOT TRY THIS AT HOME.
IT IS DANGEROUS. PROCEED COMPLETELY AT YOUR OWN RISK.
THIS INFO FOR INFORMATION PURPOSES ONLY.
As we know, water will thermally "crack" into H & O under high temperatures, usually in presence of a metal catalyst like iron oxide ( rust ) or copper or platinum or nickel.
Last night I got my wifes water squirt bottle she uses for the ironing, and gave the BBQ quite a few squirts of tap water in varying water densities ( mists ). I also tried injecting water mist into the gas flow as it entered the burner body. I got some orange flame but not a lot.
Next I tried different levels of misting by adjusting the nozzle. I had limited success. Then I leaned the water mist right off and I must have hit the burner just right and WOOOOOF!!!!!!! - one large orange flame ball about the size of a basket ball.
Proof of concept confirmed.
Now it occurs to me that if you could create a steel coil in the path of enough heat to get to about 1800F ( 900 C ) roughly, water will crack into H & O.
If you pumped water into the coil at one end, attach an expansion cyclinder of 2 inch diameter and 8 inches long the coil feeds into, and have an oulet pipe at the other end of the expansion tube so the H & O can be extracted, you could then feed & burn the H & O into a furnace and produce steam and create a home electricty generation plant using a simple turbine. The expansion tube should allow quenching ( stopping the H & O from recombining ). I thought of using copper tube but no copper solder will hold at 900 C, so maybe steel.
Interesting I thought.