The notion that a 4% solution of sea salt (seawater) explodes when impacted at 25,000 psi in a properly conditioned impact chamber  is simply absurd.  Or so one would think. 

 

View the videos below. :

 

 

 

 

 

 

 

 

 

 

 

 

 

It occurred to us that it might be very interesting to inject something other than pure water into the impact chamber.  Seawater being relatively abundant, it seemed that this would be a logical starting substance to inject.  The first video involves the injection of a 2% solution of sea salt at 900 psi and 620 degrees Fahrenheit.  The second video uses a 5-6% solution at 450 psi and 830 degrees Fahrenheit.

 

These are oxy hydrogen explosions. In the first video there were five successive explosions until the pressure relief valve was destroyed, thereby eliminating the 900 psi chamber pressure. It appears that the chemical dynamics of this event are both pressure and temperature dependent. We do not observe this form of reaction when pure water is injected. It remains to be determined whether this is electrodynamic, electrochemical or a result of the extreme momentary temperatures at the impact surface as predicted by theory.

 

Water begins to undergo covalent separation beginning at temperatures of 2200 degrees C (3%) and at 3000 degrees C (50%).  At some point there is going to be an explosion if the mixture is ignited. Fukushima, Chernobyl and Three Mile Island experienced this type of catastrophic event.

 

We are constructing a version of the impact system which will produce continuous oxy-hydrogen explosions, the output of which will be applied to a rotary expander of some variety.  We are looking at the helical expander of Langson Energy (RattlerEnergy.com) and the variable turbine Manufactured by Vengeance Power (VengeancePower.com).