Congratulations to the open-science Martin Fleischmann Memorial Project (MFMP) on the success of its LENR replication efforts.
The MFMP is a nonprofit organization formed in 2012 to pursue research in the field of low energy nuclear reactions in an open and transparent way. With the stated goal of demonstrating to the world the reality of LENR, in a clear and unambiguous way, MFMP scientists reported that they were able to record nearly every activity involved in achieving excess heat from the Fleishman Pons effect.
To view their research and experimental activities, including live streaming experiments and their latest cookbook recipes, visit MFMP’s website
http://www.quantumheat.org/index.php/en/home/mfmp-blog/519-the-cookbook-is-in-the-signal
This open-science project success should help many of our colleagues and numerous independent researchers using Parkhemov’s replication plan to produce the Fleishman Pons effect in their own labs.
The Cookbook is in the signal…
Prepare thoroughly (Ni + LiAlH4 + Li). Bake Ni; Reduce Ni; Hydrogenate Ni; Mix: Ni + LiAlH4 + Li; Bake and vac reactor, add Mix, vac warm, add H2, Vac; Heat to above Mössbauer determined Ni Debye (say 135C), pressure regulated to approx 1bar abs; Hold, pressure regulated to approx 1bar abs; Heat slowly to as close to Ni Curie as comfortable (Say 340C), pressure regulated to approx 1bar abs; Hold, pressure regulated to approx 1bar abs; Slowly lower temp to above highest known Ni Debye (Say 220C), pressure regulated to approx 1bar abs; Hold, pressure regulated to approx 1bar abs; Go as fast as possible through Ni Curie; Hold, pressure regulated to approx 0.5bar abs; Cycle through 500C internal, pressure regulated to approx 0.5bar abs; Hold, pressure regulated to approx 0.5bar abs; Raise internal temperature to over 1200, pressure regulated to approx 0.5bar abs; Drop to around 1000C and hold, pressure regulated to approx 0.5bar abs; Raise internal temperature to near boiling point of Lithium. Some of the above steps may in time be redundant.
1h Thermal > x/β- (0-100KeV) emissions thermalised in Lead > IR/THz (via blackbody) > 5h (SSM) where ‘>’ means ‘leads to’