The big news, as you commented earlier - could be that there is finally good
reason to suspect that scale-up to kilowatts of continuous power is on the
horizon. It may be costly, even without the palladium - to process that much
active nanopowder.
As a result... to overcome the expense of
At ICCF21, JBP was also reporting such runaway event with PdNiZr powder. The
quantity of PdNiZr was about 100g when the runaway occurred. The runaway
phenomena stopped when temperature reached ~450°C which is the upper limit for
this kind of powder. The difference is that the runaway started
The "Z" in this report is zirconia not zinc (Zn).
This matrix material is rather similar to Ahern's nanopowder technique also
using zirconia as a carrier, but with no palladium at all.
Celani would probably say that it is vindication for his work with copper nickel
From: Jed Rothwell
See:
https://www.researchgate.net/publication/328547673_Anomalous_Heat_Burst_by_CNZ7_Sample_and_H-Gas
My comment:
The sample is ~1 kg. That is much more material than you were using years
ago. That's good! I am very pleased to see that people are increasing the
mass of reactant. I believe that
See:
http://lenr-canr.org/acrobat/ENECOtheseventh.pdf
I uploaded many individual papers previously. They are fully converted so
the text quality is better. They are listed here:
http://lenr-canr.org/index/ICCF7/ICCF7.php
- Jed
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