Turning Snow into Fuel
One of the most amazing parts of Water Fuel Technology , is the Steam Resonance System. It was invented to rapidly defrost water in below zero conditions. It also has alot of benefits as a heating system for boiling or ducted pipe heating systems, Such as de icing run ways etc .
Stanley had several versions of the Steam Resonator circuit.
Here we try to show you clearly the versions. in a similar progression to what we can study about his path.
We deecided to include this one , the design is not the design we all chase for with the steam resonator.
It seams to b Stans first vision of using the pulse and gate with a wave guide to heat the water.
No doubt it worrked, but Stan studiied it and learnt about the better low amp way with chokes and Double
positive latter on. In this Diagrram you can start to leearn and see as stan did as you progress rading this page .
This helps you look upon his circuits in the right way.
So we class this circuit picture below as pre Steam Resonator.
We think this is based on a "transverter" which was the name for an electromechanical device, invented in Britain in the 1920s, to produce high-voltage direct current from AC sources for efficient power distribution over long-distance lines.
The triac network selects the higher through lower voltages from the secondary winding taps (your throttle control for heat), In this picture, the transformer is fed with 60hz AC, and the rectifier bridge turns that into HVDC, and then the SCR pulses it to the plates.
In the one I just reversed engineered, you can see the switching on the primary that the HV SCR would be doing, and the signal through the bridge rectifier would produce the same pulsing to the plates from what would be called "DC Ripple"
the amp restriction in these was done by using stainless steal wire for the secondary (high resistance) looking at the secondary winding before,
Marked transveeerrtor drawing is HV on where the cld spark occurs, coil acting like cap in a flip flop tank circuit filling up and empting , the spark gap and spark is not positive or negative. in stans we need postive to postivee and that is where a dbd barrier can help also hold charge in the wave guide, Also note in the Drawing above Stans Drawing , he put the positive on the ceentre which is site to when making h2 when it is on outter
( the circuit of stans that includes switch for hot water or furnace), this would seem to confirm the circuit can switch polarity.
The circuit here consists of 2 half LC tanks as known the RADIANT flashover occurs at TURN ON, one capacitor charges to maximal resonant value then the cycle goes in opposed sinewave as the other charges in resonant condition the first one is DISCHARGED in the second transformer with a nominal gain of 1.618 if properly tunned, this second circuit deplete C V value as near to 0V as SCR switches off at a minimal remanent voltage (minimal) before primary tank reverses sinewave to reload half LC and discharge the other loaded capacitor.
The discharge does not affect input tunning as its at opposed non-coupled relation this permits the full vector of the power components to be decopled from the source (totaly non-reflective) as to permit a PERFECT resonant tune of LC as to charge capacitor in RF radiant operation mode.
Now you have the BASIC and simple design of the looped transverter circuit , just be Verry carefull with it ,use at minimal power and follow safety common sense I dont want you to have any incident with this device ,as you validate feel free to post (its quite demanding in its tuning) post this letter with your results as EXTRA information for others to follow.
For basic triggering you can use multy-vibrator optoinsolated mode a simple switching diode set up to trigger the opposed capacitor when charged, input ac regulates the timing, LOAD regulates the discharge time so overal time must be shorter (lower impedance) to increase frequency (shorter pulse) shorter discharge time as to reduce capacitor voltage value to near 0.
The transistors ( sk3181a/sk3180) first is 40v, second one is 80v, they seem to be connected to the high voltage coil wires, if they are stepped up from 12v to 240v by 20:1 from primary to secondary they seem to be underrated for the voltage?
The circuit is in an old patent of Stanley Meyer.
Read the Patent
You see no charging chokes or whatever.
It looks like a voltage selector, in the patent is descripted, that the hot water switch activated higher voltages.
Maybe some pre design of the Steam Resonator
Maybe not a converter to 120V/230V, but to 70 or 60 or something like that.
The amperage would be much too high with 120V. trry is none the less
If those are chokes, where did the 220ohm measurement come from? if measured from the "chokes" they must be wire wound power resistors, because you can't find a choke like that with that high of resistance. The fuse is your power coming into the circuit, the chassis is ground, and those transistors don't have the collectors connected to the heat sinks internally, so heat sink pads not issue (metal mounting screws would be an issue too, so nylon screws would be used because non-conductive). lastly, what you think is the cell output, looks like the primary center tap to me(either normal center tap or bucking coil center tap), and that rec bridge you think is connected to alternator is really the cell output. In his schematics he shows another switch on the HV positive side, but most likely the primary switching accomplishes the same kind of signal on the secondary, from the primary "switching noise" which normally would be smoothed out with a capacitor on the output : (Kept It Simple, Stan) .
the Steam resonator is
+to positive to the inner and outer tube there is no negative
that is why other have used ac ac will work but
not as good as stans in terms of efficicent no amps
the h is + the dbd + and the charge is +
he made a note on this lost slide
to make the water vibrate and warm up due to friction. he shows the circuit flip flops back and forth.what is not shown here is the flip flop has a space in between each flip and flop.
The AM signal is that it acts as a Wave–particle duality.
This vibrates the molecule.
and heres a pic of stans control unit showing steam resonator control board
( which appears identical to the resonant cavity control sections)...suggesting either it uses same pulse circuit for steam res as the resonant cavities ( hho tubes) or he just used the same control panel for steam res for convenience
( I would guess its using same pulse circuit as stans work was very clean/finished design).
one more pic showing two connections for steam resonator on the resonant cavity,
VIC H BRIDGE DIAGRAM
there is another view of steam res switching board with coil attached
in this pic I've added some dots which represent unknown connections
2 purple dots = two earthing? wires been cut
2 red dots = two thick red wires cut
4 green dots = transistor earth wires been cut
1 red dot (bottom of fuse) /one black dot ( bottom right in pic)
= wire connections unknown
A a closer look at what had been labelled as 'resistors' on an interpretation of stans board, you can see the thick windings under the black heat shrink/plastic, so they are inductors rather than resistors,
close up view showing heatsink pad had previously been used behind the transistors,
now each transistor is just heatpaste so each has centretap connected to aluminium backplate.
New Advanced Version
it is a glass tube with positive core and glass and ositive steel with watr in gap water
have adapted it for making Steam + to + no negatives on glass or steel only as Stan Taught +
ON the Right (+/-) ozine typ field
a example of the the DBD barrier at work ,
as the gap must be 3mm or less to be working correct density with water w can hav large gap than with o3 so some adjustment.
if you put + to + on it instead of dc + to - andrplace air with water
you will get instant hot water
Adapting to Cold Fusion
It has Becmoee apparnt that seeveral teechnologiees show on thesee pages leend them selves to easy breaking and reforming of bonds with out heat. a able to make meetal laticees and gas lattices.
Some of Which cause a rebalancing to occurr by which electrons are shed. .
In such a large about of heat is made with little or not amperage in put. .
We have moved the information on this topic into th Vault it is propriatary information at this moment.
A Hydronic System with Low Amp Water Boiling with vic and tubes
RARE LEVEL 1
Peak effect coupled with the surface tension of the water
When you go back to surface air gap , the potential difference reappears in the thin layer of water that remains and it produces this effect.
insulating the tubes with dbd or air gap via their conditioning would precisely enable the voltage to be increased via a simple RLC circuit.
And if it is isolated it does not arc and does not break the resonance
the voltage which increases near surface layer SKIN EFFECT => ddp more important =>
suddenly you must tear off electrons on the electronic layers closer to the nucleus of atoms (H O).
While with a strong current and a weak ddp it is the electrons of the outer electronic layers which are torn off.200V to 1.34A Your water with surface tension wouldn't behave like a capacitor?
are the Stan Meyer Water Heater Boiler tube cells they have a outer and inner tube in each, and possibly a foil between ( and maybe not) no one has shown inside yet?
The vic switch voltage back and forth on the inner and outer tubers on each line making water flux but not break bond just heat fast using just cold voltage no amps or very low amps
Heat on demand these connect to rest of the hydronic system, which will remove any hho gas that may occur
10 Arrays of tubes 20 tubes inner and outer in that system