This is a deduction based on Rossi's patent. The E-Cat X runs at high temperatures higher than the Hot Cat. Rossi also has had problems with structural failures in the E-Cat X because of high temperature operation. It is doubtful that nickel can handle long term high temperature reactor operations.
Rossi also says that the E-Cat X is different from the Hot Cat and that the E-Cat X has a different effect than the low temperature reactors. On Thu, Nov 19, 2015 at 8:34 PM, David Roberson <dlrober...@aol.com> wrote: > Rossi has never mentioned palladium use within his reactors Axil. That > is your thought as far as I am aware. > > Dave > > > > -----Original Message----- > From: Axil Axil <janap...@gmail.com> > To: vortex-l <vortex-l@eskimo.com> > Sent: Thu, Nov 19, 2015 2:20 pm > Subject: Re: [Vo]: How many atoms to make condensed matter? > > In the Co-deposition video, the narrator says that the reaction sets in > withing minutes for the start of Co-deposition even though the current is > at very low power levels maintained at Co-deposition initialization. > > During Co-deposition initiation no hydrogen is deposited until three > atomic levels of palladium are transferred to the copper substrate. > > This means that the palladium chloride envelope is the active LENR factor > and not the hydrogen deposited on the electrode. > > As Rossi has done on the E-Cat X, palladium powder used in a pure hydrogen > envelope WITHOUT oxygen is effective as a LENR reaction mechanism. > > On Thu, Nov 19, 2015 at 6:08 AM, Roarty, Francis X < > francis.x.roa...@lmco.com> wrote: > >> Axil, Jones, >> Good insights and dot connecting, would it apply to Patterson >> beads submerged in water with a lithium sulfate (Li2SO4) electrolyte >> solution? (Li2SO4) vs palladium chloride absorption of UV? His claim >> that it would neutralize radiation without emitting harmful radiation is >> consistent with more recent Japanese patents for remediation. >> Fran >> >> *From:* Axil Axil [mailto:janap...@gmail.com] >> *Sent:* Wednesday, November 18, 2015 2:15 PM >> *To:* vortex-l <vortex-l@eskimo.com> >> *Subject:* EXTERNAL: Re: [Vo]: How many atoms to make condensed matter? >> >> As posted before, water absorbs UV light about 100,000,000 times better >> than infrared light. This makes it a poor partner with any noble metal at >> producing polaritons at UV frequencies. >> >> >> However, when chlorine is added to the palladium solution to form palladium >> chloride in the electrolyte, the absorption of UV light is greatly reduced. >> This favors polariton formation using UV light. >> >> See: >> >> >> http://www.researchgate.net/publication/229233040_Speciation_of_aqueous_palladium(II)_chloride_solutions_using_optical_spectroscopies >> adium( >> >> >> On Wed, Nov 18, 2015 at 1:33 PM, Jones Beene <jone...@pacbell.net> wrote: >> >> On further examination, Ken may be on to an important insight here which >> is relevant to LENR. Here is another reference with more detail. >> >> “Single-Atom Catalysts: A New Frontier in Heterogeneous Catalysis” >> YANG, et al. >> >> When read in the context of the recently mentioned Szpak interview, where >> we see the highly credible report of 3 out of 10 meltdown events, using >> only plain water but with palladium chloride in the electrolyte – this >> makes me think that the magnetic field facilitated single atom palladium to >> first densify and accumulate, and then after 3-4 days to react in bulk. >> >> *From:* Ken Deboer >> >> … most recently JM Thomas (Nature 17 Sept 2015) showed that single >> atoms, of Pd especially, make better catalysts than nanoparticles. super >> catalysts, in fact. >> >> >> Now that you mention it – if you look back at Pd-D cold fusion, one of >> the most effective techniques is “co-dep” or co-deposition. >> >> In co-dep, palladium chloride is in the electrolyte, which means >> essentially that individual ions of palladium are present. >> >> >> >> >> >> > >
