I do not understand this one. Can anybody help?
Thomas Blakeslee <http://www.clrlight.org/> April 14th, 2011 at 7:03 PM<http://www.journal-of-nuclear-physics.com/?p=473&cpage=3#comment-33059> I’m confused about the caption on the closeup picture on the NyTeknik article on the 4.5 KW demo. It says “Close view of the main resistor surrounding the copper tube, which in turn surrounds the steel reactor.” How can the resistor heat the nickel up to 500C through the water? ------------------------------------------------------------------------------------------------------------------------------------------- Andrea Rossi April 14th, 2011 at 8:09 PM<http://www.journal-of-nuclear-physics.com/?p=473&cpage=3#comment-33068> Dear Mr Thomas Blakeslee: To answer to your question I should give you information regarding the design of the reactor. I can’t. Warm regards, A.R. On Sat, Apr 16, 2011 at 3:45 PM, Axil Axil <janap...@gmail.com> wrote: > Let us get into the details on this point as follows: > > > > Under the assumption that the nuclear active area in the Rossi process is > within large numbers of nanoscopic crystal defects in Rust and NiO is > somehow the controlling mechanism, what can that mechanism be? > > > > The nuclear heat comes from Fe2O3. To transfer that nuclear heat to the > stainless steel reaction vessel, the Fe2O3 must be in surface contact with > the wall of this vessel. > > > > The Adjusting the preheating input adjusts the power output of the reactor. > How can this be. > > > > The NiO must be in surface contact with the preheating input. The NiO must > not be in surface contact with the Fe2O3 since the nuclear heat produced by > Fe2O3 does not effect the NiO. > > > > The must be a space between the Fe2O3 and the NiO and that space is filled > with hydrogen an isolating material. > > > > When preheating input is applied to the NiO, its production of > electrostatic force increases. This force travels across the isolating gap > to the Fe2O3 and increases the nuclear reaction. > > > > A decrease in the preheating input reduces the electrostatic force > impinging on the nuclear active areas in the Fe2O3. This reduces the nuclear > reaction. > > > > Preheating input changes electrostatic force from 0 to 100%. This is the > adjusting mechanism. > > > > If the two catalysts were physically mixed the reaction would be self > sustaining. > > > > Reducing the pressure of the hydrogen increases the insulation value > between the Fe2O3 and the NiO thereby reducing nuclear activity, since some > heat travels across the insulation gap from the Fe2O3 to the NiO thereby > supplementing the preheating input. > > > > This is all very ingenious! > > > > > > > On Sat, Apr 16, 2011 at 11:41 AM, SHIRAKAWA Akira < > shirakawa.ak...@gmail.com> wrote: > >> On 2011-04-15 23:46, Jed Rothwell wrote: >> [...] >> >> You could also add this important piece of information: >> >> * * * >> >> http://www.journal-of-nuclear-physics.com/?p=360&cpage=16#comment-33330 >> >> Is it in general possible to regulate the power output of the E-cat in a >> continous way and if yes in what limits about? Is it done by regulating the >> H2 – pressure or can it be achieved by adjusting the preheating input? >> >> April 16th, 2011 at 10:36 AM >> >> 1- Yes, from 0 through 100% >> 2- Adjusting the preheating input >> Warm Regards, >> A.R. >> >> * * * >> >> Cheers, >> S.A. >> >> >
