Aw: [Vo]:H2 and O2 bubbles .15 micrometer burn, damaging electrodes in AC electrolysis -- could complicate cold fusion devices: Rich Murray 2011.09.28

[peter . heckert]

 


- Original Nachricht 
Von: Rich Murray rmfor...@gmail.com
An:  vortex-L@eskimo.com
Datum:   29.09.2011 03:04
Betreff: [Vo]:H2 and O2 bubbles .15 micrometer burn, damaging electrodes in AC 
 electrolysis -- could complicate cold fusion devices: Rich Murray 2011.09.28

 H2 and O2 bubbles .15 micrometer burn, damaging electrodes in AC
 electrolysis -- could complicate cold fusion devices: Rich Murray
 2011.09.28
 

It would be interesting to know the frequencies and current densities used.

I am still looking for a simple experiment that I could do myself at home to 
prove LENR effects ;-)

Now I had this idea:
Use a NiMH battery. The positive electrode consists out of Nickel+Nickeloxide 
nanoparticles, so far I know.
The electrolyte is KOH. The negative electrode is an unkown alloy that is 
optimized to form metalhydrides, it has high hydrogen adsorption capacity.

Charge a NiMH battery reverse, of course with very low current, otherwise it 
would explode.
For the current use AC + a DC bias. Then bubbles should form at the positive 
Nickel electrode, that contain HH + O, but if the charging AC has a negative 
bias, the bubbles should contain more hydrogen than necessary to burn.

This should happen: A microbubble forms inside the Nickel Nanomaterial. H2+O 
combustion ignites. The Bubble expands and because the combustion product is 
water, the bubble should then collapse rapidly. Because we have a surplus of 
Hydrogen, the Hydrogen + the Nickel Nanomaterial should now be under high 
pressure inside the bubble. Because electrolysis forms atomar hydrogen, I hope 
that Nickel-Hydrogen LENR reacions happen inside the NiMH battery.

;-)

Peter

Re: Aw: [Vo]:H2 and O2 bubbles .15 micrometer burn, damaging electrodes in AC electrolysis -- could complicate cold fusion devices: Rich Murray 2011.09.28

[Horace Heffner]

On Sep 28, 2011, at 11:03 PM, peter.heck...@arcor.de wrote:





- Original Nachricht 
Von: Rich Murray rmfor...@gmail.com
An:  vortex-L@eskimo.com
Datum:   29.09.2011 03:04
Betreff: [Vo]:H2 and O2 bubbles .15 micrometer burn, damaging  
electrodes in AC  electrolysis -- could complicate cold fusion  
devices: Rich Murray 2011.09.28



H2 and O2 bubbles .15 micrometer burn, damaging electrodes in AC
electrolysis -- could complicate cold fusion devices: Rich Murray
2011.09.28



It would be interesting to know the frequencies and current  
densities used.


I am still looking for a simple experiment that I could do myself  
at home to prove LENR effects ;-)


Now I had this idea:
Use a NiMH battery. The positive electrode consists out of Nickel 
+Nickeloxide nanoparticles, so far I know.
The electrolyte is KOH. The negative electrode is an unkown alloy  
that is optimized to form metalhydrides, it has high hydrogen  
adsorption capacity.


Charge a NiMH battery reverse, of course with very low current,  
otherwise it would explode.
For the current use AC + a DC bias. Then bubbles should form at the  
positive Nickel electrode, that contain HH + O, but if the  
charging AC has a negative bias, the bubbles should contain more  
hydrogen than necessary to burn.


This should happen: A microbubble forms inside the Nickel  
Nanomaterial. H2+O combustion ignites. The Bubble expands and  
because the combustion product is water, the bubble should then  
collapse rapidly. Because we have a surplus of Hydrogen, the  
Hydrogen + the Nickel Nanomaterial should now be under high  
pressure inside the bubble. Because electrolysis forms atomar  
hydrogen, I hope that Nickel-Hydrogen LENR reacions happen inside  
the NiMH battery.


;-)

Peter



NiMH batteries have been tested for excess heat both in forward  
current and reverse current mode, with null results.   To my  
knowledge no testing for transmutation or occasional high energy  
radiation has been made.


Best regards,

Horace Heffner
http://www.mtaonline.net/~hheffner/