The production of nanoparticles witch is critical in LENR requires a varying pressure and temperature profile arounf the supercritical transition point in the gas envelope. A varying input power profile will give that varying temperature and pressure profile.
On Mon, Apr 20, 2015 at 5:22 PM, Bob Cook <[email protected]> wrote: > Mr. S. I. Tampe wrote: > > > > <<Yes, note parkhomov seam to indicate that the form of the applied ac is > important. Hence if you take that at face value the conclusion is that > induced varying magnetic field is important. Why couple that with the > heating. Much better to decouple and search for optimal stimulation in the > test at each level of heat.>> > > I agree with this idea to separate the parameters that or thought to be > important and learn about what effects the reaction. > > Bob Cook > > > > > Den 17 apr 2015 00:11 skrev "Bob Higgins" <[email protected]>: > >> By 300C, and in the presence of the released H2, the Ni particles have >> been reduced of their oxice and are sintered together into a spongy solid. >> It remains this way until the LiH and Al have melted, and then the web of >> SOLID spongy Ni is coated with a liquid film of LiH-Al . The Ni is solid >> and is not going to stir, however, it may be possible to get motion of the >> liquid LiH-Al metal. >> >> On Thu, Apr 16, 2015 at 3:39 PM, Stefan Israelsson Tampe < >> [email protected]> wrote: >> >>> Heya Vortexuses, >>> >>> Any thoughts about my shallow thoughts about the parghomov/Ecat setup, >>> >>> When it comes to steel making, one often has a magnetic stirrer to >>> even out the temperature in the mold, hence improving the quality of the >>> final product. This works by the magnetic varying field induces current >>> that interacts with the magnetic field and induces a force see. >>> >>> https://www.sinfo-t.jp/eng/stirrer/principle.htm >>> >>> What I'm wondering is if the fuel inside the ECAT at those high >>> temperatures might be stirred by the alternating current. If the stirring >>> is the key, then the frequencies does not need to be especially high. >>> Parkhomov seam to say that the waveform can have high derivatives from time >>> to time which might >>> >>> translate into a "kick" of the right magnitude that might be positive >>> for getting it to stir properly. >>> >>> I'm not sure that the magnitude of this force is in the right ballpark >>> to do anything good though. >>> >>> Another possibility is the following. Powder is a kind of fluid, but if >>> you kick it internally and stir it with a magnetic stirrer with kicks you >>> may make it more fluffy and more fluid like, that can be beneficial, this >>> will surely reduce conductivity though making the stirring effect less >>> prominent, I see lots of options to vary dimensional properties and powder >>> properties, frequencies etc to get the most optimal setting. >>> >>> Also a good question, can one decouple the heating from the stirring (if >>> it indeed can be stirred)? >>> >>> Hmm, wind with two wires in a double helix, one with low resistance (low >>> heating) thicker, higher conductivity etc, and the usual one to heat. Maybe >>> there will be problems with magnetic coupling between the wires, but surely >>> the setup is less coupled then using just one wire. >>> >>> Another better possibility is to heat with DC and stir with AC. One >>> should then try to decrease the resistance in the wire as much as possible >>> in order to heat less with the AC and get more stiring/manipulating >>> power/freedom out of it if needed. >>> >>> >>> Cheers! >>> >> >>
