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  • Consensation??

    I am wondering if other people's and Elias's issue may have been seeming to have non success or "rough" idling, due to being a condensation related matter. s1r9a9m9's back yard motor on YouTube was running pretty rough, and he did say that his car needs to warm up before running well.

    I remember reading about one experimenter who created flash steam with some method. It worked to drive the piston which i understand was purely bench experiments, but then it soon stopped working. He eventually discovered that his problem was due to the steam condensing before it could do any work. He heated his engine and then found that it worked again. His original problem was that the steam was condensing because the internal cylinder walls and/ or heads, were relatively cold and that the contact with the steam, had created condensation, or the return of the steam back to a liquid state.

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    • I am no engineer

      but... I believe from what I've read on electrohydraulic metal forming that the water simply reacts to the spark (and is possibly atomized) resulting in a shock wave that can be up to 156% efficient according to a figure I read regarding a mining institutes findings (their measurements).

      Measured input electrical energy was less than measured output kinetic. The water just expands instantaneously and forms the sheet metal against a die in an enclosed cavity similarly to explosive forming. There is no residual pressure or heat. Also in another test I saw where experiments were perfoemted in a clear housing, no fog or vapor was visible during or after the discharge indicating it is not flash steam.

      I do not know all that is involved in the process, but I don't believe it is HHO or electrolosis. I also don't know if my pump design would work as I have recently found that the water is atomized, but it may return to it's liquid state instataneously following the event. not sure as I have not experimented.

      I just know that it is different than the IC engine mist style water spark plug experiements going on here and also that it seems (from what I've ready) to be proven to work consistently (used in industry today) and seems to be an example of overunity input VS output.

      I cannot argue in facts because I have not experimented myself, but if it is currently in use in industry, it seems someone has put the time in to make this work and if that person has not though of motive applications, maybe it is simply a matter of taking the proven technology in a new direction.

      Am I out in left field here or does this seem promising to anyone else? This isn't just some thing that I dreamed up, (well I guess the pump design is, but only that specifically) it is proven techology, used in the metal forming industry and it seems that it just needs to be adapted for use in other areas.

      Comment


      • metal forming information.

        Originally posted by wes77 View Post
        but... I believe from what I've read on electrohydraulic metal forming that the water simply reacts to the spark (and is possibly atomized) resulting in a shock wave that can be up to 156% efficient according to a figure I read regarding a mining institutes findings (their measurements).

        Measured input electrical energy was less than measured output kinetic. The water just expands instantaneously and forms the sheet metal against a die in an enclosed cavity similarly to explosive forming. There is no residual pressure or heat. Also in another test I saw where experiments were perfoemted in a clear housing, no fog or vapor was visible during or after the discharge indicating it is not flash steam.

        I do not know all that is involved in the process, but I don't believe it is HHO or electrolosis. I also don't know if my pump design would work as I have recently found that the water is atomized, but it may return to it's liquid state instataneously following the event. not sure as I have not experimented.

        I just know that it is different than the IC engine mist style water spark plug experiements going on here and also that it seems (from what I've ready) to be proven to work consistently (used in industry today) and seems to be an example of overunity input VS output.

        I cannot argue in facts because I have not experimented myself, but if it is currently in use in industry, it seems someone has put the time in to make this work and if that person has not though of motive applications, maybe it is simply a matter of taking the proven technology in a new direction.

        Am I out in left field here or does this seem promising to anyone else? This isn't just some thing that I dreamed up, (well I guess the pump design is, but only that specifically) it is proven techology, used in the metal forming industry and it seems that it just needs to be adapted for use in other areas.
        Can you give some source to the metal forming your talking about. I'm not suggesting it does not work. I was referring to tests conducted where plasma sparks under water generate HHO bubbles. These newly made bubbles pop with the following arcs and go back into the water instead of this blast. The process just creates HHO bubbles and then pops them. No real pressure is obtained. Perhaps we are not on the same page.

        Comment


        • sure

          Yes, I think we are discussing two different things. Here are some links to the things I am referring to. Like I mentioned, I do not know if the pump I drew up would work, but it does seem like the technology could be adapted and that it has been developed to some degree in industry from what I have read.

          YouTube - Panacea-BOCAF Water Spark Plug (3 of 3) (watch from 1:50 min to 3:00 minutes)

          http://www.panaceauniversity.org/Wat...ark%20Plug.pdf
          (pages 125-134)

          Water atomisation by high magnitude electrical impulses: A study.

          Opportunities in High-Velocity Forming of Sheet Metal

          Electrohydraulic - Sheetmetal Forming - Engineer's Handbook

          There is another good document (I can't find) I had printed out and that is where I got the circuit for the pump design I posted. It was simple and generic with no component values, but had all the necessary items (I believe) so I included it on the drawing. If I find it, I will post a link to that as well.

          -Wes

          Comment


          • Originally posted by Aaron View Post


            The A picture is my simple drawing of the bare bones water spark plug effect method. When the capacitor C1 discharges, it is 100% isolated from both terminals from any power supply. The ONLY input into the coil for the effect is whatever is charged into the cap. Nothing more, nothing less.

            It is possible that adding high current pulse from a power supply increases the effect, but lets leave that as a separate issue to deal with because it is a fact that the basic effect IS able to be reproduced over and over with only a charged up photo flash capacitor.

            The idea I see expressed as to why the effect happens is this:
            1. Close S1 to discharge C1 into the primary of ignition coil
            2. HV winding outputs HV pulse to the spark plug causing an arc.
            3. The arc gives enough of a conductive pathway for whatever is left in the capacitor to discharge over the gap therefore adding a low voltage pulse to the high voltage pulse.


            I think I'm finally beginning to understand how this stuff works. I think Aaron is pretty close here, but this does not explain why you would get an energy gain. This is why I may have been a bit critical towards Aaron in the past .

            What I think may be happening, is far fom a "simple" LV discharge from "whatever is left in the capacitor" trough the arc. If that were the case, how could you ever see excess energy??

            So, there appears to be more to it, and this is what may be really happening:
            1. Close S1 to discharge C1 into the primary of ignition coil
            2. HV winding outputs HV pulse
            3. HV pulse creates an electric field, expanding with the speed of light, following the wire towards the spark plug
            4. Electric field induces a current inside the wire, building up charge at the spark plug
            5. An arc fires in the spark plug, causing a momentarily, high voltage, high current trough the wire
            6. This creates a sharp magnetic field pulse around the wire, trying to maintain this high current
            7. Magnetic pulse travels back along the wire towards the coil and then also along the other wire to the diode. There, it causes additional electrons to be "sucked" trough the diode directly from the cap. These somehow travel/tunnel trough the diode, despite of it's reverse bias, exciting the diode at HV, giving HV as well as high current!


            In other words: the electric field induces a current, which induces a magnetic field, which on it's turn lifts the electrons from the cap across the potential barriere in the diode. This whole process somehow, somewhere draws in ZPE and converts that into a high voltage, high current discharge trough the arc.

            Comment


            • Plasma spark ignition systems (currently on market)

              This company currently produces plasma spark ignition systems for various vehicles. They are in production and orderable from what I can tell. Not sure if it is the same intensity as the circuits used here, but worth looking at for sure if you are interested in firestorm and plasma ignition systems either for improved gasoline engine efficiency or water spark.


              OKADAPROJECTS | PRODUCTS | PLASMA BOOSTER | PLASMA DIRECT | PLASMA SPARK | PLASMA GROUND | PLASMA LIFT | PLASMA QUAD PAC

              Comment


              • Originally posted by lamare View Post


                So, there appears to be more to it, and this is what may be really happening:
                Ahem, what I wrote is rubbish. I had a party the other night, it looks like I wasn't all that awake this afternoon....

                The way this is drawn, you get a *negative* high voltage at the HV winding, not a *positive one*. So, the story should be something like this:
                1. Close S1 to discharge C1 into the primary of ignition coil
                2. Magnetic field builds up in ignition coil; HV winding will be at a positive voltage, relatively close to the supply voltage
                3. Open S1 to create BEMF pulse
                4. HV winding outputs high *negative* *voltage* pulse
                5. The cap sees high *negative* *voltage*, to which it is more then happy to discharge into across the diode.
                6. Cap starts discharging with high current towards the high negative winding
                7. As soon as the electrons start moving, an magnetic field is building up, because there's always some self-inductance in every wire, which does count with such high voltages.
                8. The arc fires, which means that the high-negative voltage is vanished and discharged within a matter of nanoseconds. At that moment, the high-current discharge from the cap has already built up a significant magnetic field because of the self-inductance of the wires (and/or the load), which forces the discharge current to continue for a while in the direction it was already moving, even though the event that caused this (the high negative voltage) is way gone.
                9. This current has no way to go, but to discharge trough the arc, in the *opposite* direction as the HV discharge that occured just nano-seconds before.


                In other words: the moment the switch is opened, the coil creates a high negative potential for the cap to discharge to. However, before the cap gets a chance to actually do that, the negative potential is gone. But, in the meantime, a magnetic field has already been built up, which forces an additional discharge from the cap trough the arc.
                Last edited by lamare; 09-03-2009, 06:57 PM.

                Comment


                • This is a spark system for a minature radio control engine


                  YouTube - Super Ignition system for benzene engine new technology and design (LCXi)

                  Thought some of the technology may be of interest here. Its just that I cant find anymore info on it

                  Comment


                  • positive spike and gain

                    Lamare,

                    The hv from the ignition coil is only negative if it comes out on the collapse. It Is positive if it comes on on the punch up.

                    Here is the gain by mixing high current and high voltage from two different sources - it is no different than the primary operating principle of the Ed Gray circuits.

                    Sincerely,
                    Aaron Murakami

                    Books & Videos https://emediapress.com
                    Conference http://energyscienceconference.com
                    RPX & MWO http://vril.io

                    Comment


                    • videos of my water spark plug work

                      Hi all,

                      I just wanted to share an unsettling experience I just had with eBay.

                      I have compiled two DVD discs, one is a DVD with a menu and all and a DVD data disc of my work. I placed them on eBy for $20.00 for the two-disc set, free shipping, etc. But this morning I was notified that I am in violation of copyright infringement under their policy and my listing was removed. If I do it again then my account will be closed. Holy crap ! One of the schematics shown in the listing photos shows the words "Copyright" and my full name.

                      Anyone know anything about eBay bullying people like this? What kind of case do I have? I can produce the camera and all of the raw footage from which the video was compiled plus the drawings, schematics, etc. What a kick in the groin.

                      Thanks for listening,

                      Greg

                      Comment


                      • RC engines

                        Originally posted by turbotrana View Post
                        This is a spark system for a minature radio control engine


                        YouTube - Super Ignition system for benzene engine new technology and design (LCXi)

                        Thought some of the technology may be of interest here. Its just that I cant find anymore info on it
                        I have been giving these engines some thought. You can get them in a "nitro" engine or a gasoline, and up to 5-6 HP! LOts of RPM's. Great power for the size thats for sure. Seems like if one could get one of these little guys to run well on HHO then it will definately turn a small generator of some type to run a load or produce more HHO through the electrolizer. Small scale, and the ignition systems are probably a breeze compared to some others that some are trying to work on. just a thought

                        Comment


                        • Hello, guys.
                          Has anybody experimented with plasma spark in plasma injectors?
                          I have collected a few photos of a custom made plasma injector, but I have no idea of it's efficiency.
                          Has anybody tryied it in a car engine, or do you know somebody who did?
                          I think it's a brilliant idea that could be developed.
                          Thank you.
                          Attached Files
                          Real PEACE from the Prince of Peace: Jesus Christ!

                          Comment


                          • Plasma

                            Originally posted by Kinetix View Post
                            Hello, guys.
                            Has anybody experimented with plasma spark in plasma injectors?
                            I have collected a few photos of a custom made plasma injector, but I have no idea of it's efficiency.
                            Has anybody tryied it in a car engine, or do you know somebody who did?
                            I think it's a brilliant idea that could be developed.
                            Thank you.
                            The image doesn't give too much away, so it's hard to know exactly what that apparatus is designed to do.

                            To my eye, it somewhat resembles "Hydrogen Assisted Jet Injection", aka, "HAJI".

                            Rather than being a plasma injector, it could be a method of applying hydrogen to the plug base in a pre-chamber type arrangement.

                            Research "Hydrogen Assisted Jet Injection"(HAJI), as developed by Professor Harry C Watson and the team at Melbourne University.

                            If that's what it is, and you wish to apply it, then you'll want to hook up a simple hydrogen booster to it, with appropriate care of course, then inject a small amount of hydrogen under slight pressure into the pre-chamber, where it will react violently with the spark and cause a jet type of discharge to blast out into the main combustion chamber, a bit like a rocket thruster, igniting very very lean mixtures contained therein, which is not normally possible by any other means.

                            "HAJI" is a most interesting concept, and well worthy of study and application.

                            Plasma plugs don't really look any different from normal spark plugs, so to suggest that it's a plasma plug might not be quite correct.

                            Do you have any more info on it?

                            I'm running plasma on my engine, courtesy of an RPG4700 radiant plasma gen, and the gain is more than what you can ordinarily expect from a Crane Cams HI6 and Fireball PS91 coil, which is serious package on it's own.

                            I'm currently running resistorless Brisk Premium LGS plugs, which have taken over duty from my custom made Firestorm plugs. The Firestorms will be getting another run again shortly, as they appear to have been more efficient with the leaner mixtures.

                            Don't bet the farm on that last observation, simply as I've been preoccupied with another all consuming project that has taken away all my free time, time that I would normally have applied to furthering my tests, hence, that observation hasn't been put to the test yet.

                            Hope this helps.

                            Comment


                            • I should add...

                              Anyone playing with HHO, would be well advised to look at using "HAJI" as the best method of application, as mentioned in the above post.

                              It would have to be the most effective way of applying hydrogen to exploit lean mixtures that I've seen to date.

                              Comment


                              • Your Plasma circuit

                                Originally posted by Shane Jackson View Post
                                I cannot believe it's been almost a month.... I am thinking of using a Molex plug for the connections out the case (to sparkplugs, block, and AC). Will make a real nice clean look and install.

                                Hi guys, I'm new in this forum and have read from cover to cover, whew! too many infos to digest and understand.

                                @shane - would you be kind enough to post your schematics and parts list? i am planning to initially try to replicate Greg's circuit but given the limited supply of electronic components in my area, particularly the HV diodes & caps, I might end up replicating your "diode" string & resistor combo. how many ohms are your resistors? (sorry if this has been mentioned earlier, but i probably didn't pick it up). how's the performance/efficiency so far?

                                if posting doesn't work perhaps you could PM or email it instead.
                                thanks a heaps!

                                Comment

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