On 2012-08-07 10:55, Akira Shirakawa wrote:
Hello group,
Update from 22passi from Celani himself (Passerini contacted him by phone):
Google translated, Google shortened link to the blogpost:
http://goo.gl/v4Opj
Short summary
- Celani's demo reactor was turned on for about 6 hours before NIWeek
2012 started, on Saturday
- On Sunday the demo reactor was brought to the NIWeek 2012 hall where
it got turned on before 12:00 and *still is working*, so for a total of
55 hours as of writing.
- The reaction is stable. Peak excess heat power was 22W, currently
stabilized at about 14W
- Testing performed in front of a wide audience
- Celani's testing wire is made as a Cu-Ni-Mn alloy, a good sample which
was already previously used 4 times by him at his labs in Frascati (Italy)
New paper by Celani et al. attached:
http://goo.gl/K1T0M
* * *
Cu-Ni-Mn alloy wires, with improved sub-micrometric surfaces, used as
LENR device by new transparent, dissipation-type, calorimeter
Francesco Celani, E. F. Marano, A. Spallone, A. Nuvoli, E. Purchi(, M.
Nakamura, B. Ortenzi, S. Pella, E. Righi, G. Trenta, S. Bartalucci, G.
L. Zangari, F. Micciulla, S. Bellucci.
Abstract -- Starting in February 2011, we studied the feasibility of
new Nickel based alloys that are able to absorb proper amounts of
Hydrogen (H2) and/or Deuterium (D2) and that have, in principle, some
possibility to generate anomalous thermal effects at temperatures >100°C.
The interest in Ni comes in part because there is the possibility to use
H2 instead of expensive D2. Reports by F. Piantelli (since 1992), G.
Miley (about 1995), M. Patterson, F. Celani (since 2010) and, overall,
claims by A. Rossi and (later on) by Defkalion Company, could be further
investigated. Moreover, cross-comparison of results using Hydrogen
instead of Deuterium can be made and could help the understanding of the
phenomena involved (nuclear origin?) because use of such isotopes.
* * *
A meaty update!
S.A.
