HHO Pulse Combustion Turbine by RM :)

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The image below shows the amended detail to the LFV.

The two white circles indicate the area between the piston head and the compression inlet. The green circle indicates the area of maximum compression at the ECV inlet.

The combined white circle area (360 degrees) must exceed the green circle area or you will restrict the flow of fluid into the ECV inlet. This is important because it sets the minimum limit of linear distance that your piston poppet must travel.

Shortest possible linear distance for piston poppet travel is desirable in an LFV because it is a controlled variable of the time component of NRV closure.

The part I have marked 0.001" GAP indicates the rear face of the poppet pressure reaction disc. You can change the gap setting if you want, it will be simple to do turned on a lathe.

The part I have marked Micro Drill shows where to drill through the solid front face of the poppet pressure reaction disc. You can change the angle of drilling to 45 degrees to simplify machining and may even increase the poppet reaction under expansion pressure. The outer edge of the front disc is a semi mechanical seal and must be a very close tolerance (10 microns max) and will slide inside its sleeve very similar to a hydraulic piston.

You may get tempted to change the shape of the poppet piston rounded end to match the ECV inlet. Do not do this under any circumstances. If the metal expands from the heat it could jam in the ECV inlet and the NRV will not close.

If you are building an ECV compromise then you can change the shape of the poppet piston rounded end to a machined cone to match the countersink without worrying about it.

Now lets talk about how many discs your going to choose for your PCT...

2 Discs are the minimum required for a system. This gives us one disc gap for fluid potential injection.

If we increase to 3 Discs then we have two gaps for fluid potential injection. This is an increase of Disc Stack Mass of 50% but an increase of potential energy of 100%.

If we increase to 4 Discs then Mass increases by a further 33.3% and potential energy increases by 50%.

If we increase to 5 Discs then Mass increases by a further 25% and potential energy increases by 33.3%.

We can keep going with this but the differential gap keeps getting smaller. The largest potential difference of the stack we can exploit is the jump between 2 Discs and 3 Discs. For this reason a 3 Disc System should always be chosen over a 2 Disc System.

In a HHO PCT System such as I have suggested with Discs that have a very large Mass component then I see no reason to select a 2 Disc Stack over a 3 Disc Stack, especially considering the timing advantages already discussed concerning multiple valve cooling, and charging.

RM  

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Linear Firing Valve Cone Compromise

An LFV built entirely with the simple Cone.

Performing Energy Conversion Processes and Sealing at the same time.

This is the ideal LFV version for rapidly building a 24 Valve PCT, with 3 Discs and 2 Fluid Injection Gaps.

Low Pressure natural Gas Expansion from a Bubbler, or High Pressure Injection from a Tesla Pump.

Stainless Steel 316 work hardens easily, we have Heat and an Impact Die on every Firing Pulse.

Therefore we can control the hardening process of the mating Cone Faces by controlling the HHO Charge and Firing Spacing.

Run your LFV's in slowly from Low Pressure Bubbler before High Pressure Injection is wise.

Enjoy playing with your new toy

RM

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Hi everyone,

Pulse 1:

An Impulse of Energy at Time 0 acting at 90 Degrees to Potential Difference creating a Turning Moment.

Pulse 2:

An Impulse of Energy at Time 1/4 acting at 90 Degrees in advance of Time 0 Phase Angle.

Pulse 3:

An Impulse of Energy at Time 1/2 acting at 180 Degrees in advance of Time 0 Phase Angle.

Pulse 4:

An Impulse of Energy at Time 3/4 acting at 270 Degrees in advance of Time 0 Phase Angle.

01 WAVE:

Potential Difference Phase Angle Timing Model.

1/4 Impulse Timing Wheel:

Timing Sequence for a 12 Valve / 3 Bank System, Impulse acting at 1/4 Disc Phase Rotation.

Firing Sequence A1:A2:A3:A4:B1:B2:B3:B4:C1:C2:C3:C4

RM