Re: [Vo]:Of Cold Fusion and Catalytic Converters...

2014-03-14 Thread Axil Axil 
This auto cat converter system is consistent with the basic principles of
nano particle based cold fusion. Think of this system as a dry PF cell.

In a PF cell, HHO production and nanoparticle based LENR reactions would
happen as a unified reaction.

In this Hot Cat system nanoparticle production is moved to a separate and
remote electrolysis process.

This is what Mills is trying to do when he speaks of formulating nascent
water which is a requirement of his new arc based reaction.

HHO contains water clusters (aka solid state water molecules) formed by arc
discharge. The micro particles on the catalytic converter are in the some
goldilocks size range as the NiH reactor of .1 to 5 microns. The surface of
the auto cat converted is rough and its reaction surface area is large.

I would predict that any remotely connected cooling plasma process whose
end product is nanodust could feed this type of system.

For the experimenters among us, I would try a cavatation system to prepare
the solid state dust in a water solution. The water in the cavatation
system should contain dissolved potassium carbonate salt. This potassium
salt should produce potassium nanodust in a wide range of diameters. Such
randomized dust particles sizes amplify nanoplasmonic power levels. After
this nanoparticle feedstock production process, use a transducer powered
nebulizer to vaporize the water and mobilize the solid nanoparticles in the
air stream from the water suspension.

A one process step high pressure injector system (over 100 bar) might
produce cavatation and particle suspension in a one-step parallel process.

Such a LENR system has all the earmarks of a great cold fusion system.
These earmarks include dynamic NAE production, good reaction control, and a
low power consuming nanodust production process.

By closing this Hot Cat system, a further enhancement is to remove the air
from the system and use hydrogen as the nanoduct carrier as in the NiH
reactor.


On Fri, Mar 14, 2014 at 1:57 AM, MarkI-ZeroPoint zeropo...@charter.netwrote:

 FYI fellow Vorts:



 Grain of salt required?



 http://peswiki.com/index.php/OS:Justin_Church's_H-Cat



 This is an open source design that involves venting hydroxy or HHO gas -
 UN-ignited -- through a catalytic converter (the kind used in automobiles)
 -- in ambient conditions -- and generating significant heat in the process.



 For example, Justin recently sustained around 900 ºF (482 ºC) for nearly 8
 hours using around 200 Watts to run his HHO device generating about 1 L per
 minute.  He says it isn't hard to exceed the 1200 ºF limit of his meter,
 measuring the inside temperature.



 Youtube channel is here:

 http://www.youtube.com/user/jdcproducts/videos?flow=gridview=0



 -Mark

Re: [Vo]:Of Cold Fusion and Catalytic Converters...

2014-03-14 Thread Axil Axil 
It is straightforward to now understand Rossi's mouse is just a remotely
operating nanoparticle generator for the catalytic based Cat.

Rossi just decoupled nanoparticle generation from their participation in
the LENR process catalyzed by the Cat stage of the Rossi Hot Cat.


On Fri, Mar 14, 2014 at 3:35 PM, Axil Axil janap...@gmail.com wrote:

 This auto cat converter system is consistent with the basic principles of
 nano particle based cold fusion. Think of this system as a dry PF cell.

 In a PF cell, HHO production and nanoparticle based LENR reactions would
 happen as a unified reaction.

 In this Hot Cat system nanoparticle production is moved to a separate and
 remote electrolysis process.

 This is what Mills is trying to do when he speaks of formulating nascent
 water which is a requirement of his new arc based reaction.

 HHO contains water clusters (aka solid state water molecules) formed by
 arc discharge. The micro particles on the catalytic converter are in the
 some goldilocks size range as the NiH reactor of .1 to 5 microns. The
 surface of the auto cat converted is rough and its reaction surface area is
 large.

 I would predict that any remotely connected cooling plasma process whose
 end product is nanodust could feed this type of system.

 For the experimenters among us, I would try a cavatation system to prepare
 the solid state dust in a water solution. The water in the cavatation
 system should contain dissolved potassium carbonate salt. This potassium
 salt should produce potassium nanodust in a wide range of diameters. Such
 randomized dust particles sizes amplify nanoplasmonic power levels. After
 this nanoparticle feedstock production process, use a transducer powered
 nebulizer to vaporize the water and mobilize the solid nanoparticles in the
 air stream from the water suspension.

 A one process step high pressure injector system (over 100 bar) might
 produce cavatation and particle suspension in a one-step parallel process.

 Such a LENR system has all the earmarks of a great cold fusion system.
 These earmarks include dynamic NAE production, good reaction control, and a
 low power consuming nanodust production process.

 By closing this Hot Cat system, a further enhancement is to remove the air
 from the system and use hydrogen as the nanoduct carrier as in the NiH
 reactor.


 On Fri, Mar 14, 2014 at 1:57 AM, MarkI-ZeroPoint zeropo...@charter.netwrote:

 FYI fellow Vorts:



 Grain of salt required?



 http://peswiki.com/index.php/OS:Justin_Church's_H-Cat



 This is an open source design that involves venting hydroxy or HHO gas -
 UN-ignited -- through a catalytic converter (the kind used in automobiles)
 -- in ambient conditions -- and generating significant heat in the process.



 For example, Justin recently sustained around 900 ºF (482 ºC) for nearly
 8 hours using around 200 Watts to run his HHO device generating about 1 L
 per minute.  He says it isn't hard to exceed the 1200 ºF limit of his
 meter, measuring the inside temperature.



 Youtube channel is here:

 http://www.youtube.com/user/jdcproducts/videos?flow=gridview=0



 -Mark