Axil, a skeletal catalyst is equivalent to nano powder..the voids where Al is leached out of Rainy Ni have the same geometries as that formed between grains of nano powders.
[snip] Mills would do well to add micro and Nano powders to his design.[/snip]and both result in DCE as they form a tapestry of different Casimir values. A paper by Chen at Purdue describes catalytic action detected only at the openings and defects in a nanotube.. The random packing of nano grains or size of leached cavities is the opposite spectrum where defects are the norm and change in boundary dimensions is the only constant. IMHO catalytic action is based on DCE. Fran From: Axil Axil [mailto:[email protected]] Sent: Sunday, December 01, 2013 2:24 PM To: vortex-l Subject: Re: [Vo]:Re: http://www.blacklightpower.com/wp-content/uploads/presentations/TechnicalPre sentation.pdf It seems to me that the CIHT cell is just a variation off the Ni/H reactor design theme. Water is used instead of hydrogen. Oxygen is used as another dielectric gas. No nickel nano or micro powder is used so the heat production potential is limited. Potassium carbonate is used as the "secret sauce". Another alkyl metal: lithium is also used. I believe that hydrogen and hydride based nanoparticles are producing the reactions and experimental results that Mills is attributing to Hydrinos. Nickel is heated over its Curie temperature. This effort is informative, one of the things we learn from this effort my Mills is the pressurized superheated steam can be used as an effective Nanoplasmonic dielectric gas in a Ni/H design. Mills would do well to add micro and Nano powders to his design. On Sat, Nov 30, 2013 at 1:36 AM, P.J van Noorden <[email protected]> wrote: Hello Steven Blacklightpower has made a 10W CIHT cell which can produce electricity from watervapour. The composition of the electrode is such that the hydrino producing reaction is facilitated and the electronshifts caused by transition of the electrons to sub groundstate levels can be used externally like in a battery. These cells work at high temperature ( few hundred dgrC ) so they must be well insulated. By using a very good insulation the cell should stay hot, bcs the reaction will also produce heat. The focus of BLP lies in the construction of an electrode that can function at such a high temperature for a very long time without degradation and to scaleup the powerdensity of the reaction in order to make the cell more compact. To build a system of 1000W would then be relatively simple by using 100 cells. Peter v Noorden ----- Original Message ----- From: "OrionWorks - Steven Vincent Johnson" <[email protected]> To: <[email protected]> Sent: Saturday, November 30, 2013 12:42 AM Subject: [Vo]: This was recently posted out on the Yahoo group: "Society for Classical Physics", Dr. Mill's Yahoo group: The recent FAQ under the CIHT topic mentions that "The CIHT cell has been scaled to 10 W, and a development projection with the achieved significant increase in surface power density is a 1.5 kW electric module that can be ganged accordingly to serve larger power applications." It also talks about the 1.5kw pre-production prototype expected by the end of 2013. Here we are near the end of 2013 and I have to ask, why aren't we hearing about a public demo of the 10W version? It was actually projected for a couple of years ago and is apparently working at BLP. We keep hearing about the scaling up, but as another poster observed earlier, "nothing to hang your hat on". Whither the 10W demo? -- Lynn I'll be curious to find out what Dr. Mills might choose to say on the matter. I thought the web site was monitored. I was surprised to see it get posted. Regards, Steven Vincent Johnson svjart.OrionWorks.com www.zazzle.com/orionworks tech.groups.yahoo.com/group/newvortex/
