Now looking at this board
Stan Meyer's Steam Resonator
Bom
Attached home heater board
Attached home heater board
While we work on and share the De icing circuit from Stan for his Voltrolysis cells
we can use these
Heating Voltrolysis cells
We know all cells in pairs and series , while we modernize stand steam defrost circuit we can use this for anti ice or deice cell with a -5 to 5 C
NEVER over 24 c to 27 C so we keep gas nano bubbles in water longer temp controlled on off to prevent freezing of water note also the charge in water effect rate of freezing. https://youtu.be/wHKytv30b3w
we can use these
Heating Voltrolysis cells
We know all cells in pairs and series , while we modernize stand steam defrost circuit we can use this for anti ice or deice cell with a -5 to 5 C
NEVER over 24 c to 27 C so we keep gas nano bubbles in water longer temp controlled on off to prevent freezing of water note also the charge in water effect rate of freezing. https://youtu.be/wHKytv30b3w
we need only seconds of operation so we stay well under the 24 c
but above freezing 0C
but above freezing 0C
securesupplies
Re: Stan Meyer's Steam Resonator
« Reply #180, on May 20th, 2023, 09:39 AM »Last edited on May 20th, 2023, 09:45 AM
Thanks To Stans Legacy and the Team of Global Home Builders Stanley A Meyer;s Steam Generator for Defrost Nano Bubble Water Fuel Tanks is now made global in 3d Printers. To Get you Copy and Download Visit. https://www.thingiverse.com/thing:6036401 Special Thanks to those who Support Nano Bubble Water Fuel and Hydrogen Hot Rod Magazine . https://www.hydrogenhotrods.us/
We attached here and Challenge those of you with a #D printer to print some Because you can !!!!!!!!
We attached here and Challenge those of you with a #D printer to print some Because you can !!!!!!!!
securesupplies
Re: Stan Meyer's Steam Resonator
« Reply #181, on May 20th, 2023, 09:41 AM »Last edited on May 20th, 2023, 09:44 AM
Pictures
Pictures and PDFS
GOD SPEED
GOD BLESS STANLEY A MEYER
GOD BLESS STANLEY A MEYER
Ethan Copied Stan A Meyers Work on Steam Resonator and Shared these files from his study
Helpful Files for those wanted to collect preserve build and replicate Stanley A Meyer Open Source Work Faster
JOIN IN TODAY SAVE FILES POST AND PRINT IT.
Stanley A Meyers Work is Now Re shared here .
DD
Helpful Files for those wanted to collect preserve build and replicate Stanley A Meyer Open Source Work Faster
JOIN IN TODAY SAVE FILES POST AND PRINT IT.
Stanley A Meyers Work is Now Re shared here .
DD
PICTURES FOR REFERENCE
Remember you have a Responsibility to save share and build it.
Remember you have a Responsibility to save share and build it.
Mkane Patent this version of stans work , just quote stans patent number on every thing as it by pass latter patents
ATTACHED
Worth a read
ATTACHED
Worth a read
From Stans Legacy
More Work is posted 3D FILES ATTACHED
Steam Resonator - 3D printable replication
As of 5-3-23 the STLs shown in here are being printed to build a plastic model. At this point, please only consider the following as informational and do not print until all parts are verified to be correct.
image-1683164414839.png
TOP CAP:
Top cap is as the name implies. Screw holes are located around the periphery for mounting inside a water tank. Two holes for electrical connections can be seen near the center.
Steam Resonator Top Cap.stl
image-1683161472325.png
ORING:
This piece is to be glued to the top cap to accept a sealing O-ring. The STL is for two half pieces that need to be glued together.
image-1683161501952.png
S/R MOUNT BASE:
The S/R block is the area that the coaxial orientated electrodes are recession into. This allows electrical connection at the top.
Steam Resonator SR Mount Base.stl
image-1683161258014.png
OUTER ELECTRODE:
Outer electrode is T-304 stainless steel tube. 0.625" outside diameter. 0.049" wall. 0.527" inside diameter. 7.725" long. Since machining slots could be difficult and costly, a stencil was made (two half pieces for easier printing) that slides over a .625" diameter tube for marking and manual machining. Stencil STLs are listed below.
Stencil: RESONATOR MILLING STENCIL TOP SECTION.stl , RESONATOR MILLING STENCIL BOTTOM SECTION.stl
image-1683164451008.png
INNER ELECTRODE:
The inner electrode is T-304 stainless steel material. 0.25" outside diameter. 9.165" long. Machining will need to be done per the drawings.
image-1683162046340.png
INSULATION BLOCK:
The insulative block is an insulation divide between the two outer electrodes. The overall length is 8.125". Square section is .150" tall. Given the length of the whole piece, STLs are half pieces that need glued together.
Insulative block 4.125_ section .stl
Insulative block 4.00_ section .stl
image-1683162228195.png
DELRIN NUT:
Delrin nut goes over the shorter threaded protrusion of the mounting pins through the insulative block
Steam Resonator Delrin Nut .stl
MOUNT PIN:
END CAPS:
Delrin end caps that have a .300" recession for the inner electrode, and .100" protrusion for inserting into inner diameter of outer electrode.
END CAP REVISED .stl
STEM PLATE:
ASSEMBLY:
FIGURE 1:
Place the mounting pins into their respective recessions. The longer threaded portion goes up through the SR block. Shorter threaded ends go downwards through the insulative block's .150" square section.
FIGURE 2:
Insulative block is placed over the mounting pin's protrusions.
image-1683163901973.png
FIGURE 3:
Outer electrodes, with welded stem plates, are recessed into their corresponding holes (.200" recession into SR block).
image-1683163947479.png
FIGURE 4:
Place inner electrodes coaxially inside the outer electrodes. This is accomplished by recessing them into the SR block (.420" recession).
image-1683164004577.png
FIGURE 5:
End caps are placed onto the bottom. There is a .100" protrusion on the end caps that goes into the inner diameter of the .625" diameter tube. Through the bottom of these end caps, 6-32 stainless steel screws are secured.
image-1683163344758.png
FIGURE 6:
Screw the delrin nuts (.500" outside diameter) onto the mounting pin threaded protrusions to secure the insulative block.
image-1683164096249.png
FIGURE 7:
Secure the O-ring support via glue to the underside of the top cover.
image-1683164216496.png
FIGURE 8:
Place top cap onto SR block.
image-1683164275593.png
More Work is posted 3D FILES ATTACHED
Steam Resonator - 3D printable replication
As of 5-3-23 the STLs shown in here are being printed to build a plastic model. At this point, please only consider the following as informational and do not print until all parts are verified to be correct.
image-1683164414839.png
TOP CAP:
Top cap is as the name implies. Screw holes are located around the periphery for mounting inside a water tank. Two holes for electrical connections can be seen near the center.
Steam Resonator Top Cap.stl
image-1683161472325.png
ORING:
This piece is to be glued to the top cap to accept a sealing O-ring. The STL is for two half pieces that need to be glued together.
image-1683161501952.png
S/R MOUNT BASE:
The S/R block is the area that the coaxial orientated electrodes are recession into. This allows electrical connection at the top.
Steam Resonator SR Mount Base.stl
image-1683161258014.png
OUTER ELECTRODE:
Outer electrode is T-304 stainless steel tube. 0.625" outside diameter. 0.049" wall. 0.527" inside diameter. 7.725" long. Since machining slots could be difficult and costly, a stencil was made (two half pieces for easier printing) that slides over a .625" diameter tube for marking and manual machining. Stencil STLs are listed below.
Stencil: RESONATOR MILLING STENCIL TOP SECTION.stl , RESONATOR MILLING STENCIL BOTTOM SECTION.stl
image-1683164451008.png
INNER ELECTRODE:
The inner electrode is T-304 stainless steel material. 0.25" outside diameter. 9.165" long. Machining will need to be done per the drawings.
image-1683162046340.png
INSULATION BLOCK:
The insulative block is an insulation divide between the two outer electrodes. The overall length is 8.125". Square section is .150" tall. Given the length of the whole piece, STLs are half pieces that need glued together.
Insulative block 4.125_ section .stl
Insulative block 4.00_ section .stl
image-1683162228195.png
DELRIN NUT:
Delrin nut goes over the shorter threaded protrusion of the mounting pins through the insulative block
Steam Resonator Delrin Nut .stl
MOUNT PIN:
END CAPS:
Delrin end caps that have a .300" recession for the inner electrode, and .100" protrusion for inserting into inner diameter of outer electrode.
END CAP REVISED .stl
STEM PLATE:
ASSEMBLY:
FIGURE 1:
Place the mounting pins into their respective recessions. The longer threaded portion goes up through the SR block. Shorter threaded ends go downwards through the insulative block's .150" square section.
FIGURE 2:
Insulative block is placed over the mounting pin's protrusions.
image-1683163901973.png
FIGURE 3:
Outer electrodes, with welded stem plates, are recessed into their corresponding holes (.200" recession into SR block).
image-1683163947479.png
FIGURE 4:
Place inner electrodes coaxially inside the outer electrodes. This is accomplished by recessing them into the SR block (.420" recession).
image-1683164004577.png
FIGURE 5:
End caps are placed onto the bottom. There is a .100" protrusion on the end caps that goes into the inner diameter of the .625" diameter tube. Through the bottom of these end caps, 6-32 stainless steel screws are secured.
image-1683163344758.png
FIGURE 6:
Screw the delrin nuts (.500" outside diameter) onto the mounting pin threaded protrusions to secure the insulative block.
image-1683164096249.png
FIGURE 7:
Secure the O-ring support via glue to the underside of the top cover.
image-1683164216496.png
FIGURE 8:
Place top cap onto SR block.
image-1683164275593.png
Pictures these are for the Buggy Tank Steam resonator
Remember download save videos pictures and notes
before all lost in the sands of time
before all lost in the sands of time
b
AS Stanley A Meyer Work is Now Fully Replicated and in use in Both Businesses and by Individuals Globally it is time to Reflect on what a Great Man Stanley A Meyer was to achieve all this
God Speed. Stan
God Speed. Stan
Continued
notes
who want to try on tube cells?
with water and measure
12vdc in
+ to center tap of coil
- ground to board
operational condition
12vdc
6 to 9 amps average 6 amps
72 watts
Typical Temperature Ranges:
Low to Medium Power Systems: Induction heating systems used for brazing or heat treating copper tubes can achieve temperatures around 300°C to 600°C (572°F to 1112°F).
High Power Systems: For melting or more intense heating applications, induction systems can reach above 1000°C (1832°F), especially when used for processes like metal hardening or brazing.
Maybe able to add Offset resisitors to board.
who want to try on tube cells?
with water and measure
- RJP3065 x 2 pc
0.33uf /1200volt x 2pc
4x4 copper coil loop
aluminum heat sinks x2
12vdc in
+ to center tap of coil
- ground to board
operational condition
12vdc
6 to 9 amps average 6 amps
72 watts
Typical Temperature Ranges:
Low to Medium Power Systems: Induction heating systems used for brazing or heat treating copper tubes can achieve temperatures around 300°C to 600°C (572°F to 1112°F).
High Power Systems: For melting or more intense heating applications, induction systems can reach above 1000°C (1832°F), especially when used for processes like metal hardening or brazing.
Maybe able to add Offset resisitors to board.
Drawn here is one version
Took a look at the clock section from the schematic. 200ns pulses (5mHz). Looking at the PCB from estates pictures, I don't see the same IC's (unless they were off board, somewhere). Do see 24VAC input, though.