CP/yoshino are currently under criminal investigation and there is a pending civil fraud case as well with Mizuno. FYI.
Japan LENR Updates
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Hi Daniel.
If this case is going to court, it is now 'sub judice' as the lawyers say, and you would be well advised to say nothing more. If CP win their case you could face damages yourself if you say to much.
The law is a lottery and you don't always win - even with a good
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JCF21
translation..says July 2021
not sure if has been on LF
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Iwamura's radiation calorimetry is interesting..
"
Released excess energies per hydrogen for this example is evaluated. The total
amount of absorbed hydrogen for all the experimental cycles was 5.9x104 mol. The
amount of released excess energy was calculated by the time integration of excess powers
for each experimental cycle. Total released energy is calculated as 1.2 MJ.Although it seems highly unlikely that all the absorbed hydrogen atoms reacted, we can still estimate
that average released energies per absorbed total hydrogen. Total excess energy per
absorbed hydrogen is 2.0 GJ/H-mol or 21 keV/H-atom. Obviously, it is too large to be
explained by any known chemical reactions.
Even if the excess heat were 1/10 of this value, it would be 0.2 GJ/H-mol or 2.1
keV/H-atom, which means that energy that could not be explained by known chemical
reactions must have been generated. Therefore, the uncertainty of the excess heat
evaluation does not significantly affect the conclusion that observed phenomena cannot
be explained by known chemical reactions.The energy of each burst is huge ,, definitely the problem in LENR
is not heat production but heat removal..
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The energy of each burst is huge ,, definitely the problem in LENR
is not heat production but heat removal..
Nuclear actions proceed at the speed of light. Heat moves at the speed of sound.
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More news from Japan (via France). Jacques Ruer (President of the SFSNMC) newsletter no 22. In French.
And translated -
Letter N ° 22
News from Japan
Jacques Ruer
03/03/2021
In the previous letter I mentioned an ongoing research in Japan conducted by Yasuhiro Iwamura of Tohoku University in Sendai.
This author has researched the diffusion of hydrogen in thin nickel-copper films. A publication is available in volume 33 of the JCMNS:
https://www.lenr-canr.org/acrobat/BiberianJPjcondensedzf.pdf
Note that this researcher is known for having published the observation of transmutations during the diffusion of deuterium in multilayer assemblies. See for example a paper on this subject in volume 4 of the JCMNS published in 2011:
http://iscmns.org/CMNS/JCMNS-Vol4.pdf
Iwamura works with Clean Planet, a startup dedicated to developing and commercializing cold fusion energy. See: https://www.cleanplanet.co.jp/en/company/
The news is that Clean Planet is hiring these days. This is not visible on the English site cited above. However, job offers are available on the site in Japanese. The following link gives the English translation provided by our Italian correspondents, whom we thank:
https://translate.google.com/t…leanplanet.co.jp/recruit/
A review of this offer reveals several interesting points:
- Clean Planet is looking for people for 2 separate sites: One in Tohoku (home site) and another in Kawasaki (near Tokyo).
- Researchers, a specialist in boilers, an accountant, a trader destined to rise in rank are desired.
- The technical skills sought relate in particular to the mastery of the vacuum technique, the production of thin vacuum films, the analysis of inorganic elements.
The envisaged development is in fact linked to the research already published:
“We have successfully developed world-class technology through joint research with Tohoku University. In the unique method of heat generation developed by our team, nanoscale materials mainly composed of cheap metals (nickel and copper) and occluded light hydrogen are mutually stimulated under certain conditions. Hydrogen acts and causes a phenomenon of generation of
heat at a temperature of 1000 ° C or less. The reaction elements of the heart which support this phenomenon of heat generation are novel and have reached the level of practical use as a source of energy. "
Finally, the way in which Clean Planet presents itself is also revealing:
“An innovative company that promotes the practical development of 'quantum hydrogen', which is an innovative new clean energy, in collaboration with Tohoku University. We are looking for new forces for the social implementation of “safe, stable and inexpensive” clean energy! Bold conflicts drive innovation. This is why we salute the skills in the making ”
What can we deduce from this?
- Confidence in past trials is sufficient to initiate applied research effort.
- Clean Planet has been successful in securing funding from investors to support a research team.
- Clean Planet does not claim to have anything to sell at this time. However, the journey towards this final stage has started.
We will follow these developments closely.
Yours truly
Jacques Ruer
President SFSNMC
Email: [email protected]
As I explained CP Iwamura misunderstand the mechanism.
Throuh the D difussion througt the thin metal film is important because it supply D from the beckside of metal so it can eject 4He ash at the surface T site.
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In the upcoming ICCF22 conference, Tadahiko Mizuno will report increased excess heat with nickel mesh coated with palladium. The results are dramatic, so we decided to upload a preprint of his paper. To understand the calorimetry, you have to read his ICCF21 paper. Unfortunately, the ICCF21 Proceedings have not yet been published. So I decided to upload preprints of both papers:
ICCF21: Mizuno, T. and J. Rothwell, Excess Heat from Palladium Deposited on Nickel (preprint). J. Condensed Matter Nucl. Sci., 2019. 29
http://lenr-canr.org/acrobat/MizunoTexcessheata.pdf
ICCF22: Mizuno, T. and J. Rothwell. Increased Excess Heat from Palladium Deposited on Nickel (Preprint). in The 22nd International Conference for Condensed Matter Nuclear Science ICCF-22. 2019. Assisi, Italy
http://lenr-canr.org/acrobat/MizunoTincreasede.pdf
Here is the abstract for the latest paper:
Abstract
We have developed an improved method of producing excess heat with nickel mesh coated with palladium. The new method produces higher power, a larger output to input ratio, and it can be controlled effectively. With 50 W of input, it produces ~250 W of excess heat, and with 300 W it produces ~2 to 3 kW. This paper is a comprehensive description of the apparatus, the reactant, and the method. We hope this paper will allow others to replicate the experiment.
Detailed discussion here Mizuno reports increased excess heat
Ni Mesh to increase the total surface area of reaction surface and Ni-Mesh has the rounder corner which has the surface T site with very high occupation probability of D due to the shape of the surface and it also have the nano-roughness to inprove the D occupation probability.
But I think that below is by far better to control the reaction metal surface potential and efficient D supply from the backside of the reaction metal.
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There are two Fusion/LENR/Clean Planet related stories in The Nikkei (world's largest financial newspaper), both behind a paywall (see Press Releases and Media):
PR & Media | CLEAN PLANET Inc.PRESS RELEASE 04. 2018 CAPITAL Completion of procedures […]www.cleanplanet.co.jpAnyone happens to have access to them?
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Nuclear actions proceed at the speed of light. Heat moves at the speed of sound.
The movement of heat is a bit more complex.
It depends on the material.
See rate of heat flow (wiki).
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The energy of each burst is huge ,, definitely the problem in LENR
is not heat production but heat removal..
It's probably a typical phenomenon in LENR that incorporates hydrogen stored in metal lattices.
The issue with metals is that when hydrogen is stored it is happening in a very non-homogeneous lattice structure due to the grain structures and cracks of those metals. This will cause very local concentrated hydrogen spots that may in turn cause very local avalanched LENR spots. Local re-annealing may also influence the behaviour of local hot spots.Iwamura is using carefully sputtered layers, but this may be insufficient.
Creating very small monocrystal metal particles may help, in particular when these particles are thermally isolated from each other and have a construction where heat can be transported away from each individually activated particle.
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It's probably a typical phenomenon in LENR that incorporates hydrogen stored in metal lattices.
The issue with metals is that when hydrogen is stored it is happening in a very non-homogeneous lattice structure due to the grain structures and cracks of those metals. This will cause very local concentrated hydrogen spots that may in turn cause very local avalanched LENR spots.Iwamura is using carefully sputtered layers, but this may be insufficient.
Creating very small monocrystal metal particles may help, in particular when these particles are thermally isolated from each other and have a construction where heat can be transported away from each individually activated particle.
>Eliminating grain boundaries of metal structures is desirable for many electronic and nanooptical applications.
I do not think that small monocrystal metal particles do not need to remove grain boundary etc, because the nano-particle surface survature is the most important part.The curvature is smaller the it is easy to be expaned from the surface to the outer direction due to the larger volume for the expansion.
this is because the cold fusion occures at the metal surface T site.
I agree that heat generation variation on the metal surface can be a issue. so the direct cooling with H2O flow on the reaction surface with faster H2O flow is needed to maximize the heat transfer to the outside to Heat exchange electric power generator.
D supply from the backside of the reaction surface so it is very effisient to generate excess heat.
Other nano metal particle with D loading can store D inside nano-particle the mechanism is the same
Right Schematics D supply from the backside of the reaction surface enable the 4He-ash at the surface T site so the efficiency of heat generation is so high.
So it is important for nano-particle to cool down efficciently.
In case that nano roughtness on nano-struxture(Line and Space) on the the metal plate can have the efficient H2O flow from bottom side to top side with faster speed of H2O which flow is alighned with L/S direction.
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Post from ECW.
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I am not sure whether this is news..but Akito Takahashi posted something on Researchgate in December..
"Mesoscopic.....etc
"This 2011 paper becomes important to explain our 2021 MHE results on AHE generation mechanism in H-gas loading with Cu1Ni7/zirconia nano-composite catalyst.
Discussions with brief summary of the Kobe group's gas-loading experiments in 2010 are given here for revisiting.
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RobertBryant Yes this Dec2021 paper is news.
Big Thanks
Grear read. Elements of this work should be of interest to members at
Frank Gordon's "Lattice Energy Converter (LEC)"...replicators workshop
Mesoscopic Catalyst and D-Cluster Fusion
https://www.researchgate.net/publication/357470144_Mesoscopic_Catalyst_and_D-Cluster_Fusion
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Hopefully the lab can do some more runs before the next JCF meeting.
Mesoscopic Catalyst and D-Cluster Fusion
and drill down to the individual peaks in the gamma readings ..
Probably too early to experiment with the addition of rare earths to the Pd/Ni/Zr
perhaps the manufacture technique is not flexible?
'
No meaningful increases of neutron and gamma-ray
counts over natural background were observed for all
runs reported here -
Probably too early to experiment with the addition of rare earths to the Pd/Ni/Zr
perhaps the manufacture technique is not flexible?
Almost all Zirconium contains Hafnium - a 'tramp metal' that is hard to separate out.
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Can one print a pure Zirconium molecule and structure?
How to: 3D Printing Chemical Structures
QuoteFrom water and caffeine to medicines and engineering materials, chemistry plays a key part in everything we do and using this guide you can 3D print any chemistry model you wish with ease.
QuotePrint LabQuote -
Can one print a pure Zirconium molecule and structure?
If you mean using real Zirconium it would be tricky- the melting point of zirconium is (from memory) over 2000C. But since it oxidises readily you would have to run your printer in an inert gas atmsphere. Probably easier to whittle one from the solid...
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I'm not sure, still studying their ability to print the molecule. Are you neighbors?
Print Lab Address
Unit 20, Chorley Central Business Park, Stump Lane, Chorley, Lancashire, UK,
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molecule
Which molecule??? ZO?
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