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IF SAFIRE looked into the titanium isotopes that was generated by
transmutation, they would see that it is mostly Ti47 and Ti49
because those
isotopes have a large magnetic moment.
Table. Stables isotopes of titanium
<https://www.webelements.com/periodicity/isotopes/>.
IsotopeMass
/DaNatural
abund.
(atom %)Nuclear
spin (I)Nuclear
magnetic
moment (μ/μN)
46Ti 45.9526294 (14) 8.25 (3) 0
47Ti 46.9517640 (11) 7.44 (2) 5/2 -0.78848
48Ti 47.9479473 (11) 73.72 (3) 0
49Ti 48.9478711 (11) 5.41 (2) 7/2 -1.10417
50Ti 49.9447921 (12) 5.18 (2) 0
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<https://www.lenr-forum.com/forum/thread/5558-lenr-is-occurring-in-safire/?postID=82269#>
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<https://www.lenr-forum.com/forum/thread/5558-lenr-is-occurring-in-safire/?postID=82269#>
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<https://www.lenr-forum.com/forum/thread/5558-lenr-is-occurring-in-safire/?postID=82269#>
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<https://www.lenr-forum.com/forum/thread/5558-lenr-is-occurring-in-safire/?pageNo=1>
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On Sat, Mar 17, 2018 at 4:20 PM, Axil Axil <[email protected]> wrote:
> One of the key features of a sucessful LENR reactor design is the high
> efficiency conversion of LENR energy into heat. Most of the energy that is
> produced by the LENR reaction is formatted as subatomic particle creation.
> It is important in a successful LENR reaction design to capture those
> particles and convert them to heat energy. One method that might do this
> conversion is a magnetic bottle using a quadruple or another charged
> particle confining magnetic field. The muons that come out of the LENR
> reaction must be confined inside the reactor for up to 10 microseconds to
> give them enough time to decay. This decay will convert most of the mass of
> the muon ( 105.6583745(24) MeV/c2 )into heat energy and electrons.
>
>
>
>
> On Thu, Mar 15, 2018 at 3:42 PM, Axil Axil <[email protected]> wrote:
>
>> The COP of the Brillouin reactor is now been verified to be under 1.5...
>> nearly useless. If I remember correctly, MFMP produced over unity heat in
>> some of their experiments but not very much. The same low COP issue arose
>> in the Lugano demo. Low COP is a big problem for LENR. Most of the energy
>> produced by LENR comes in the form of sub atomic particle generation which
>> includes huge numbers of neutrinos. In the LENR reaction, the heat is
>> provided by a minor energy channel involving hawking radiation. The
>> Brillouin reactor is most likely pumping out a ton of sub atomic particles
>> as seen in the experiments of Holmlid. Those particles need to be converted
>> to heat. Therefore, the heat rich LENR reactor should be surrounded by a
>> blanket of molten lead or thorium salt to capture muons that will catalyze
>> muon fission. But this type of fission will produce a ton of neutrons
>> similar to a hot fusion reactor. The dream of a LENR reactor in your
>> basement might well be impossible unless Rossi has found a way to increase
>> the proportion of the reaction energy to be radiated in the form of heat.
>>
>> To verify if this opinion is well founded, a LENR reactor should be
>> surrounded in lead blocks up to a foot thick. We should see a large flux of
>> neutrons produced by the lead.
>>
>>
>
