Jones, did you take pains to keep the wires and connections out of the
electrolyte? How did you attach the wires to the coins? Did you do anything
special to prepare the surface of the coins, or just use dirty old
circulating nickels?  ;-)

Thanks!

Jeff

On Fri, Sep 21, 2012 at 8:03 AM, Jones Beene <jone...@pacbell.net> wrote:

> Actually, the polarity issue was one of the things that intrigued me about
> Chuck's results, in the context of AC.
>
> With DC and a graphite cathode, the suspicion is that carbon is
> participating in the heat, BUT Sites says he saw no thermal anomaly with
> other metals as the anode. Often, in simple experiments, one learns more by
> what is not seen, than by what is seen. This was the point of trying a
> crude
> replication. It requires nothing exotic to do this, and it appears that
> yes-
> there is unusual heating with the US 5-cent coins as both anode and
> cathode,
> with borax electrolyte, under AC power (~10 watts) compared to using the US
> penny (copper); and it is time to move this into a lab to document. Caveat,
> the coins are different sizes, making it difficult to compare
> "apples-to-apples".
>
> If you have children or grandchildren with science interests, this simple
> experiment could mature into a meaningful school project, if nothing else.
> We need to begin to educate the next generation of fringe scientists :-)
> and
> putative "excess heating" is an ideal way. Here is a classic paper to start
> with, keeping in mind that Ni-H appears to be demonstrably more active than
> Pd-D, when done correctly:
>
> http://lenr-canr.org/acrobat/SzpakSlenrresear.pdf
>
> In general, one would expect metal ions to migrate to a cathode, and for
> hydrogen to form and be released but, with good technique, a percentage of
> hydrogen can be retained as hydride. Essentially this can happen in the
> process called "co-deposition" - and when heavy water is used, the
> deposition of Pd positive ions onto the cathode happens with deuterons
> entrained, and you get instant loading. With this in mind, but using AC,
> one
> should try to suppress water splitting and Ohmic heating, by large
> separation of electrodes.
>
> Having read and understood the Romanowski paper, there is one other 'trick'
> to use. You want to get the alloy much closer to optimum, and pure copper
> does not form hydrides and moreover - is also "anti-catalytic" for
> spillover
> - and worst of all, is more mobile in an electrolyte - so one will benefit
> from having nickel wire handy as well.
>
>                 From: Teslaalset
>
>                 I wonder whether anode and cathode are mixed up here.
>                 The cathode in such setup generates Hydrogen.
>                 Using a coin as cathode enables hydrogen to merge into the
> coin's metal lattice.
>                 Right?
>
>                 Alan J Fletcher wrote:
>
>                 "If I had a nickel for every time" ...
>                 So ... with that caveat in mind, here's a cheap tip about
> what to do with
>                 another cheap tip - all those Buffalo coins you've been
> saving for the meter
>                 ... IOW - there is a ready source of Romanowski alloy for
> Celani type
>                 reactions in your pocket, or center console, as we speak.
>
>                 The U.S. nickel has been a cupronickel since 1913 and the
> composition is
>                 rather similar to Constantan:  75% copper 25% nickel with
> trace amounts of
>                 manganese. Romanowski would approve.
>
>                 Last year I had a private email from Charles (Chuck) Sites
> --- who has given me permission to post :
>
>                  I was reading Vortex-L and followed your link.  I'm an old
> cold fusion guy
>                 but pretty much a lurker.  I found your article on Rossi's
> E-Cat to be very
>                 interesting.
>
>                 Here is a story about CF, from 1984 with Pons and Flieshman
>                 announced their discovery,  I was a young excited physics
> student, and
>                 immediately want to test the concept of CF.  I didn't have
> palladium, nor
>                 deuterium.  So I was looking for an alternative.   I was
> thinking, Boron has a
>                 very large cross section (Q factor) and B11 could easily
> cold fuse given the
>                 right  circumstances.   So looking at what I had, what
> would
> be a good source
>                 of Ni? Not knowing it's metal makeup I choose an American
> nickel 5-cent piece.
>                 (75 percent copper, 25 percent Ni) This was the Anode.  A
> source of Boron,
>                 would be Borax (Na2B4.10H2O).  The cathode, I used
> graphite.
> This was hooked
>                 up to a 65 Watt 5 Volt supply from an IBM PC. To my
> surprise, the Nickel got
>                 extraordinarily hot.   Too hot to touch, and I melted
> several plastic p tree
>                 dish before changing to jars.   I was always able to bring
> pint of water to
>                 80C after running for about 8 hours.
>
>                 Other metals used for the Anode, showed no indications of
> even being warm.
>                 (Steel, Aluminum, Copper, Zinc).  So a US 5 cent piece gave
> great results.
>                 I even had a Geiger counter go off once, but it may have
> been a cosmic ray.
>                 Given that, I could never really understand how this Nickel
> got hot without
>                 radiation.  I could never get a theory as to how it worked
> either, in spite of
>                 the fact that the experiment is very repeatable.
>
>
>
>

Reply via email to