This reactor was not loaded with any Lithium, only trace of Nickel and mainly Tungsten.
Hello Me: Tungsten is a big challenge! I would stay away of it. Look at the following reactions according to the mizuno paper ICCF 12 p. 74. All high energy fission!
Bob Greenyer and the Martin Fleishman memorial project published their recipe for processing the nickel catalyst and says they can reliably create an LENR reaction that makes X rays- and excess heat.
MFMP hasn't claimed this.
Congratulations on the progress m356!
me356: It is all nice you write this for us, but can you also specify what you did: How were the reactors and fuel made, how did you act with temperature, pressure etc. during activation of the LENR reaction? By just announcing the results, you acting just like Rossi. Please enlighten us! Tell us more, show vidio's, proove you have done this. Only by doing that we may make progress.
BTW the tungsten H2 reactor was first described by Irving Langmuir around 1911 and he found excess heat as well. I have also thought that would probably be the simplest test to prove LENR. Nice you picked this up!
me356
Thought this might be helpful.
Best regards
Frank
BTW the tungsten H2 reactor was first described by Irving Langmuir around 1911 and he found excess heat as well. I have also thought that would probably be the simplest test to prove LENR. Nice you picked this up!
Some researchers have proposed (and experimentally observed) in more modern times that excited states of atomic hydrogen can under certain conditions form condensed clusters having special properties: Hydrogen Rydberg Matter. I find likely that this is a precursor to many observed LENR effects.
MFMP hasn't claimed this.
But the MFMP team are just about to go public with it. Maybe this coming week. I am proud to have been a small donor.
Hi Me356. Thanks very much for sharing and letting us know how it is going. Your reports are looking very promising to me really great. I'm literally on the edge of my seat looking forward to seeing definitive result data of LENR working. Your earlier video was already a great thing to see. I think your approach to handling the release of your results and data is a good one though and complementary to MFMP LOS approach and Andrea Rossi's Q and A Blog approach etc. Its great to think you may have something definitive to release soon.
I'm very very intrigued about the core information being available for 100 years! Wow. it must have been amazing to see how it clicks into place.
Do you also have a personal theory about the process or is it at this stage pure engineering?
Do you have other on going tests at this time or in the near term pipeline?
Fascinating that it worked with out Lithium in this case, so I suppose it was some kind of Ni-W-H1 process?
May I ask if you see broad spectrum X-rays or gamma, or maybe particular characteristic X-rays associated with the Tungsten and Nickel or particular gamma spikes during your test or do you prefer to give this data when you have more confirmed information later?
Good luck with your work ahead. Keep us informed how its going looks like exciting times.
Hi Me regarding your comment about possibly observing high energy neutrons in your test. Would you recommend that MFMP use more detectors in their test?
If I recall correctly MFMP have 2 Neutron detectors one for high energy Cosmic ray sources and another for thermal Neutrons but, I think Bob mentioned that in fact there are are other tubes available to detect neutrons at various energies in between. Would it be better (and safer maybe) for them to have those additional ones too? I suppose the elevated number of detections was still quite low in your test case?
As I have promised, I will share all my results. Please be patient.
I trust you fully on this. So I'm patient!
You are about to become a hero, much bigger than F&P or Rossi. I'm very excited about this, given the grim scenario of lenr with dog fights and greed splattered everywhere, your words are a breath of fresh air.
me356: It is all nice you write this for us, but can you also specify what you did: How were the reactors and fuel made, how did you act with temperature, pressure etc. during activation of the LENR reaction? By just announcing the results, you acting…
Oh no! You're sounding just like one of those pesky "pigeons" who prefer explanations, data, transparency, collaboration to coy "Rossi says, just wait" teasers. 
Quote from Been there Seen itBut the MFMP team are just about to go public with it. Maybe this coming week. I am proud to have been a small donor.
Everything is already public. All the data and the chat conversations. There are some very interesting results in terms of emissions but more testing needs to be done.
All the best Me356. We're all rooting for you.
Truly a breath of fresh air me356! Enjoy watching & listening to you work & see your unique ideas unfold!
Hi
I believe that me356 is right, all the necessary information might be available but sadly overlooked in favor of the Italian soap opera we have been watching for the last half decade. (no offense)
I believe that it is important to respect me356's right to secure his work before further disclosure even if I have a hard time imagining how one could possibly do that in the case of a successful lenr invention .
Parkmov or "Rossi effect" might take a while if ever . So.. Here is my frustrated cryptic speculation lol.
Possible facile method for Lenr at room temperature = contact ionization of hydrogen via catalyst pt/pd , absorption and transfer via a proton exchange membrane (nafion) to load a target transition metal exposed to a radiation source (thorium/x-ray/laser etc.. ) in order to trigger the process, the reformed H2 due to desorbtion can and ideally should be recycled (pumped) back into the loop for re-ionization. The process can be slow at first but after a while, you might observe/mesure/convert into electricity /thermalise or make a light bulb from the reaction nuclear events.
Note: absorption and desorbtion flow should be ideally maintained in low pressure hydrogen environment.
Input should be in the low watt range if a natural occurring radiation source is used as a trigger . It will be hard to miss the excess output.
The device can be made on a chip with multiple measurements opportunities cheaply nothing fancy .
In the case of dissociative ionization, (plasma ) method use (low pressure Lithium /césium vapor and hydrogen environnement or perhaps porous nickel plate)
No claims here feel free to dismiss, debunk or enrich . This experiment can be less than $200 and 72h of effort and a little bit of imagination it might provide a lot of useful data toward settling the lenr case.
Because of the difference in the light absorption character of protium vs. deuterium, protium is most effectively used at low temperatures(infrared) and deuterium for high temperature plasma based systems(visible light).
Because of the difference in the light absorption character of protium vs. deuterium, protium is most effectively used at low temperatures(infrared) and deuterium for high temperature plasma based systems(visible light).
Why would the light absorption of deuterium be different from that of protium? The wavelengths are almost the same:
which gives a wavelength difference of about 1 part in 1000.
