MOTTO
DAILY NOTES
Sometimes divorce is the unique solution. Obviously, if you exclude from start the pragmatic solution described in Matsuo Kirino's novel OUT (https://en.wikipedia.org/wiki/Out_(novel)
However as you will see it is not exactly about a divorce- its better defined as an increased degree of separation, segregation of PdD and NiH LENR. It is about the necessity of kind of NiHEXIT. NiH LENR will be happier without the tutelage from the PdD people- but do not take this too seriously- it is more a mode of thinking than something formal-institutional. It is good that the PdD people have so much confidence (I too am convinced that PdD is real) however- take a lokk to the title of paper 6) published after almost 38 years of CF-LENR history. One of my opponent says that "Peter seems to have a constant sense of "Something is wrong" in more LENR areas but now it is about PdD and he is right- see my miscovery concept.
A discussion with Ed Storms helps me to define the problem.
Ed wrote- and i have his permission to cite:
Peter, I agree, Rossi has found a way to activate Ni. However, he has not revealed how he did this and has lied about the resulting behavior. Consequently, we know nothing about how Ni behaves, the nuclear products, or the activation process. Nevertheless, people keep following the false paths Rossi has provided.
Rossi is an inventor- he keeps his IP secret and that is different from lying/ It uis a question about what i the reward of following the classical route in LENR, how much better than following Rossi. His replicators are free to do what they want- and this implies finding a better method than Rossi's. But not this is the isssue now and here
see this answer to my question why he believes in the unicity of LENR::
Ed Storms's list of papers
1. R. T. Bush, A light water excess heat reaction suggests that 'cold fusion' may be 'alkali-hydrogen fusion'. Fusion Technol. 22, 301-322 (1992).
2. R. T. Bush, R. D. Eagleton, Experimental studies supporting the transmission resonance model for cold fusion in light water: I. Correlation of isotopic and elemental evidence with excess energy., in Third International Conference on Cold Fusion, "Frontiers of Cold Fusion", Ed: H. Ikegami, (Universal Academy Press, Inc., Tokyo, Japan, Nagoya Japan, 1992), 405-408.
3. E. E. Criddle, Implications of isoperibolic electrode calorimetry for cold fusion: The silica effect, in Third International Conference on Cold Fusion, "Frontiers of Cold Fusion", Ed: H. Ikegami, (Universal Academy Press, Inc., Tokyo, Japan, Nagoya Japan, 1992), 417.
4. V. C. Noninski, Excess heat during the electrolysis of a light water solution of K2CO3 with a nickel cathode. Fusion Technol. 21, 163 (1992).
5. R. Notoya, M. Enyo, Excess heat production in electrolysis of potassium carbonate solution with nickel electrodes, in Third International Conference on Cold Fusion, "Frontiers of Cold Fusion", Ed: H. Ikegami, (Universal Academy Press, Inc., Tokyo, Japan, Nagoya Japan, 1992), 421.
6. T. Ohmori, M. Enyo, Excess heat production during electrolysis of H2O on Ni, Au, Ag and Sn electrodes in alkaline media, in Third International Conference on Cold Fusion, "Frontiers of Cold Fusion", Ed: H. Ikegami, (Universal Academy Press, Inc., Tokyo, Japan, Nagoya Japan, 1992), 427.
7. M. Srinivasan, A. Shyam, T. K. Sankaranarayanan, M. B. Bajpai, H. Ramamurthy, U. K. Mukherjee, M. S. Krishnan, M. G. Nayar, Y. P. Naik, Tritium and excess heat generation during electrolysis of aqueous solutions of alkali salts with nickel cathode, in Third International Conference on Cold Fusion, "Frontiers of Cold Fusion", Ed: H. Ikegami, (Universal Academy Press, Inc., Tokyo, Japan, Nagoya Japan, 1992), 123.
8. Y. N. Bazhutov, Y. P. Chertov, A. A. Krivoshein, Y. B. Skuratnik, N. I. Khokhlov, Excess heat observation during electrolysis of Cs2CO3 solution in light water, in Fourth International Conference on Cold Fusion, Ed: T. O. Passell, (Electric Power Research Institute 3412 Hillview Ave., Palo Alto, CA 94304, Lahaina, Maui, 1993), vol. 2, 24.
9. R. T. Bush, R. D. Eagleton, Calorimetric studies for several light water electrolytic cells with nickel fibrex cathodes and electrolytes with alkali salts of potassium, rubidium, and cesium, in Fourth International Conference on Cold Fusion, Ed: T. O. Passell, (Electric Power Research Institute 3412 Hillview Ave., Palo Alto, CA 94304, Lahaina, Maui, 1993), vol. 2, 13.
10. E. E. Criddle, Evidence of agglomeration and syneresis in regular and excess heat cells in water, in Fourth International Conference on Cold Fusion, Ed: T. O. Passell, (Electric Power Research Institute 3412 Hillview Ave., Palo Alto, CA 94304, Lahaina, Maui, 1993), vol. 2, 32.
11. R. Notoya, Cold fusion by electrolysis in a light water-potassium carbonate solution with a nickel electrode. Fusion Technol. 24, 202 (1993).
12. T. Ohmori, M. Enyo, Excess heat evolution during electrolysis of H2O with nickel, gold, silver, and tin cathodes. Fusion Technol. 24, 293 (1993).
13. H. Ramamurthy, M. Srinivasan, U. K. Mukherjee, P. Adi Babu, Further studies on excess heat generation in Ni-H2O electrolytic cells, in Fourth International Conference on Cold Fusion, Ed: T. O. Passell, (Electric Power Research Institute 3412 Hillview Ave., Palo Alto, CA 94304, Lahaina, Maui, 1993), vol. 2, 15.
14. R. T. Bush, R. D. Eagleton, Evidence for electrolytically induced transmutation and radioactivity correlated with excess heat in electrolytic cells with light water rubidium salt electrolytes. Trans. Fusion Technol. 26, 344-354 (1994).
15. M. Srinivasan, P. A. Babu, M. B. Bajpai, D. S. Gupta, U. K. Mukherjee, H. Ramamurthy, T. K. Sankarnarainan, A. Sinha, A. Shyam, Excess heat and tritium measurements in Ni-H2O electrolytic cells, 1994
16. M. Srinivasan, M. C. H. McKubre, Two-balance method of Faraday efficiency measurement with external recombiner and open cell calorimetry for identifying origin of excess heat in Ni-H2O electrolytic cells, 1994
17. D. Cravens, Flowing electrolyte calorimetry, in 5th International Conference on Cold Fusion, Ed: S. Pons, (IMRA Europe, Sophia Antipolis Cedex, France, Monte-Carlo, Monaco, 1995), 79.
18. D. Cravens, A report on testing the Patterson power cell. Infinite Energy 1, 21 (1995).
19. R. Notoya, Nuclear products of cold fusion caused by electrolysis in alkali metallic ions solutions, in 5th International Conference on Cold Fusion, Ed: S. Pons, (IMRA Europe, Sophia Antipolis Cedex, France, Monte-Carlo, Monaco, 1995), 531-538.
20. Z. Shkedi, R. C. McDonald, J. J. Breen, S. J. Maguire, J. Veranth, Calorimetry, excess heat, and Faraday efficiency in Ni-H2O electrolytic cells. Fusion Technol. 28, 1720 (1995).
21. J. M. Niedra, I. T. Myers, Replication of the apparent excess heat effect in light water-potassium carbonate-nickel-electrolytic cell. Infinite Energy 2, 62 (1996).
22. R. Notoya, Low temperature nuclear change of alkali metallic ions caused by electrolysis. J. New Energy 1, 39 (1996).
23. T. Ohmori, M. Enyo, Iron formation in gold and palladium cathodes. J. New Energy 1, 15 (1996).
24. J. A. Patterson, System for electrolysis, USA, Patent #: 5,494,559, 1996
25. J. Rothwell, CETI's 1 kilowatt cold fusion device denonstrated. Infinite Energy 1, 18 (1996).
26. Z. Shkedi, Response to "Comments on 'Calorimetry, excess heat, and Faraday efficiency in Ni-H2O electrolytic cells'". Fusion Technol. 30, 133 (1996).
27. M. R. Swartz, The relationship between input power and enthalpic behavior of nickel cathodes during light water electrolysis, 1996
28. M. R. Swartz, The relationship between input power and enthalpic behavior of nickel cathodes during light water electrolysis. (1996).
29. G. Mengoli, M. Bernardini, N. Comisso, C. Manduchi, G. Zannoni, The nickel-K2CO3, H2O system: an electrochemical and calorimetric investigation, in Asti Workshop on Anomalies in Hydrogen/Deuterium Loaded Metals, Ed: W. J. M. F. Collis, (Italian Phys. Soc., Riccardi, Rocca d'Arazzo, Italy, 1997), 71.
30. G. H. Miley, Possible evidence of anomalous energy effects in H/D-loaded solids-low energy nuclear reactions (LENRS). J. New Energy 2, 6 (1997).
31. T. Ohmori, M. Enyo, T. Mizuno, Y. Nodasaka, H. Minagawa, Transmutation in the electrolysis of light water - excess energy and iron production in a gold electrode. Fusion Technol. 31, 210 (1997).
32. M. R. Swartz, Consistency of the biphasic nature of excess enthalpy in solid-state anomalous phenomena with the quasi-one-dimensional model of isotope loading into a material. Fusion Technol. 31, 63-74 (1997).
33. G. Lonchampt, J.-P. Biberian, L. Bonnetain, J. Delepine, Excess heat measurement with Patterson Type cells, in The Seventh International Conference on Cold Fusion, Ed: F. Jaeger, (ENECO, Inc., Salt Lake City, UT, Vancouver, Canada, 1998), 206.
34. E. Mallove, J. Rothwell, Preliminary assessment of the "Kinetic Furnace" of Kinetic Heating Systems, Inc.—An apparently excess energy producing technology employing unknown non-chemical reactions of water in contact with metals., in The Seventh International Conference on Cold Fusion, Ed: F. Jaeger, (ENECO, Inc., Salt Lake City, UT, Vancouver, Canada, 1998), 210.
35. G. Mengoli, M. Bernardini, C. Manducchi, G. Zannoni, Anomalous heat effects correlated with electrochemical hydriding of nickel. Nuovo Cimento Soc. Ital. Fis. D 20, 331 (1998).
36. T. Ohmori, T. Mizuno, Strong excess energy evolution, new element production, and electromagnetic wave and/or neutron emission in the light water electrolysis with a tungsten cathode, in The Seventh International Conference on Cold Fusion, Ed: F. Jaeger, (ENECO, Inc., Salt Lake City, UT, Vancouver, Canada, 1998), 279.
37. T. Ohmori, T. Mizuno, Excess energy evolution and transmutation. Infinite Energy 4, 14 (1998).
38. M. R. Swartz, Optimal operating point characteristics of nickel light water experiments, in The Seventh International Conference on Cold Fusion, Ed: F. Jaeger, (ENECO, Inc., Salt Lake City, UT, Vancouver, Canada, 1998), 371.
39. G. H. Miley, Emerging physics for a breakthrough thin-film electrolytic power unit, in Space Technol. Applic. Int. Forum, Ed: M. S. El-Genk, 1999), vol. 458, 1227.
40. M. R. Swartz, G. Verner, A. H. Frank, H. Fox, J. New Energy 4, 215-217 (1999).
41. G. Miley, On the reaction product and heat correlation for LENRs, in 8th International Conference on Cold Fusion, Ed: F. Scaramuzzi, (Italian Physical Society, Bologna, Italy, Lerici (La Spezia), Italy, 2000), 419.
42. G. Miley, G. Selvaggi, A. Tate, M. Okuniewski, M. J. Williams, D. Chicea, H. Horn, J. Kelly, Advances in thin-film electrode experiments, in 8th International Conference on Cold Fusion, Ed: F. Scaramuzzi, (Italian Physical Society, Bologna, Italy, Lerici (La Spezia), Italy, 2000), 169.
43. T. Mizuno, T. Ohmori, T. Akimoto, A. Takahashi, Production of heat during plasma electrolysis. Jpn. J. Appl. Phys. A 39, 6055 (2000).
44. T. Mizuno, T. Ohmori, K. Azumi, T. Akimoto, A. Takahashi, Confirmation of heat generation and anomalous element caused by plasma electrolysis in the liquid, in 8th International Conference on Cold Fusion, Ed: F. Scaramuzzi, (Italian Physical Society, Bologna, Italy, Lerici (La Spezia), Italy, 2000), 75-80.
45. C. H. Castano, A. G. Lipson, S. O. Kim, G. H. Miley, Calorimetric measurements during Pd-Ni thin film-cathodes electrolysis in Li2SO4/H2O solution, in The 9th International Conference on Cold Fusion, Condensed Matter Nuclear Science, Ed: X. Z. Li, (Tsinghua Univ. Press, Tsinghua Univ., Beijing, China, 2002), 24-28.
46. D. Chicea, On current density and excess power density in electrolysis experiments, in The 9th International Conference on Cold Fusion, Condensed Matter Nuclear Science, Ed: X. Z. Li, (Tsinghua Univ. Press, Tsinghua Univ., Beijing, China, 2002), 49.
47. M. Fujii, S. Mitsushima, N. Kamiya, K. Ota, Heat measurement during light water electrolysis using Pd/Ni rod cathodes, in The 9th International Conference on Cold Fusion, Condensed Matter Nuclear Science, Ed: X. Z. Li, (Tsinghua Univ. Press, Tsinghua Univ., Beijing, China, 2002), 96.
48. H. Yamada, S. Narita, Y. Fujii, T. Sato, S. Sasaki, T. Omori, Production of Ba and several anomalous elements in Pd under light water electrolysis, in The 9th International Conference on Cold Fusion, Condensed Matter Nuclear Science, Ed: X. Z. Li, (Tsinghua Univ. Press, Tsinghua Univ., Beijing, China, 2002), vol. 1, 420.
49. T. Mizuno, Y. Aoki, D. Y. Chung, F. Sesftel, Generation of heat and products during plasma electrolysis, in 11th International Conference on Cold Fusion, Ed: J.-P. Biberian, (World Scientific Co., Marseilles, France, 2004), 161.
50. J. Tian, L. H. Jin, Z. K. Weng, B. Song, X. L. Zhao, Z. J. Xiao , G. Chen, B. Q. Du, "Excess heat" during electrolysis in platinum/K2CO3/nickel light water system, in 11th International Conference on Cold Fusion, Ed: J.-P. Biberian, (World Scientific Co., Marseilles, France, 2004), vol. 1, 102.
51. J.-F. Fauvarque, P. P. Clauzon, J.-M. Lalleve, Abnormal excess heat observed during Mizuno-type experiments, in Condensed Matter Nuclear Science, ICCF-12, Ed: A. Takahashi, K. Ota, Y. Iwamura, (World Scientific, Yokohama, Japan, 2005), 80.
52. K. Iizumi, M. Fujii, S. Mitsushima, N. Kamiya, K.-I. Ota, Heat measurement during plasma electrolysis, in Condensed Matter Nuclear Science, ICCF-12, Ed: A. Takahashi, K. Ota, Y. Iwamura, (World Scientific, Yokohama, Japan, 2005), 133.
53. J. L. Naudin. (hhtp://jlnlabs.imars.com/cfr/, 2006).
54. A. Klimov, Energy Release and Transmutation of Chemical Elements in Cold Heterogeneous Plasmoids. JCMNS 19, 155-163 (2016).
55. V. Violante, E. Castagna, S. Lecci, G. Pagano, M. Sansovini, F. Sarto, Heat Production and RF Detection during Cathodic Polarization of Palladium in 0.1 MLiOD. JCMNS 19, 319-324 (2016).
I believe a phenomenon so rare and novel as LENR would have only one mechanism as its source. Nature generally does its thing in the most efficient way. Both Ni and Pd are very much alike chemically and physically, hence would experience this mechanism in the same way. I see no reason to search for two different mechanisms unless a single mechanism does not work. So far, a single mechanism can explain all behavior using the metals.
DAILY NOTES
Sometimes divorce is the unique solution. Obviously, if you exclude from start the pragmatic solution described in Matsuo Kirino's novel OUT (https://en.wikipedia.org/wiki/Out_(novel)
However as you will see it is not exactly about a divorce- its better defined as an increased degree of separation, segregation of PdD and NiH LENR. It is about the necessity of kind of NiHEXIT. NiH LENR will be happier without the tutelage from the PdD people- but do not take this too seriously- it is more a mode of thinking than something formal-institutional. It is good that the PdD people have so much confidence (I too am convinced that PdD is real) however- take a lokk to the title of paper 6) published after almost 38 years of CF-LENR history. One of my opponent says that "Peter seems to have a constant sense of "Something is wrong" in more LENR areas but now it is about PdD and he is right- see my miscovery concept.
A discussion with Ed Storms helps me to define the problem.
Ed wrote- and i have his permission to cite:
Peter, I agree, Rossi has found a way to activate Ni. However, he has not revealed how he did this and has lied about the resulting behavior. Consequently, we know nothing about how Ni behaves, the nuclear products, or the activation process. Nevertheless, people keep following the false paths Rossi has provided.
Rossi is an inventor- he keeps his IP secret and that is different from lying/ It uis a question about what i the reward of following the classical route in LENR, how much better than following Rossi. His replicators are free to do what they want- and this implies finding a better method than Rossi's. But not this is the isssue now and here
see this answer to my question why he believes in the unicity of LENR::
I believe Pd and Ni behave exactly the same way, but you and other people reject this conclusion. Your belief has no reality until the kind of information now available for Pd is obtained and published using Ni. Meanwhile, people keep wasting time and resources by following what Rossi says. His information is simply not reliable and is probably completely wrong because he has no self-interest to tell the truth even if he knows the truth.
I have replied that as far I know "Pd does not work with H and Ni does not work with Ni" and by the way this was stated by Piantelli, by Defkalion and by Andrea Rossi.
Something resembling and axiomatic truth. Deuterium is an inhibitor of the heat generating process.
Andrea rossi says about this: " I don't know why D does not work, just experimented it. Probably the neutron's field interferes with the interactions. Classic fusionists love it because, erroneously, they think to make a " cold fusion". In reality the effect is not a fusion, but an interaction between fields based on the resonance of virtual particles.
Ed Storms continues:
Peter, Pd works with both H and D, as even F-P noted. However, the H produces much less power than D, as expected.
Ni has not been explored using D. (this is false, sorry, it was and it does not work in any sytem) In fact, even the experience wth H is very limited and not scientific. (this is exactly why EDITNMH will be developed and used) Without the Rossi claim, Ni would provide nothing special compared to Pd. (have you seen Parkhomiov's recent paper?)
Please forget about Rossi for a while and read:
and issues 12 and 13 here:
Now, being a nice friend and a genuine scientist- Ed Storms has sent me and to my readers a comprehensive list of papers having the mission to convince me that
"Pd works with H and Ni works with D" ergo are forms f the same system A great thank you for it!
1. R. T. Bush, A light water excess heat reaction suggests that 'cold fusion' may be 'alkali-hydrogen fusion'. Fusion Technol. 22, 301-322 (1992).
2. R. T. Bush, R. D. Eagleton, Experimental studies supporting the transmission resonance model for cold fusion in light water: I. Correlation of isotopic and elemental evidence with excess energy., in Third International Conference on Cold Fusion, "Frontiers of Cold Fusion", Ed: H. Ikegami, (Universal Academy Press, Inc., Tokyo, Japan, Nagoya Japan, 1992), 405-408.
3. E. E. Criddle, Implications of isoperibolic electrode calorimetry for cold fusion: The silica effect, in Third International Conference on Cold Fusion, "Frontiers of Cold Fusion", Ed: H. Ikegami, (Universal Academy Press, Inc., Tokyo, Japan, Nagoya Japan, 1992), 417.
4. V. C. Noninski, Excess heat during the electrolysis of a light water solution of K2CO3 with a nickel cathode. Fusion Technol. 21, 163 (1992).
5. R. Notoya, M. Enyo, Excess heat production in electrolysis of potassium carbonate solution with nickel electrodes, in Third International Conference on Cold Fusion, "Frontiers of Cold Fusion", Ed: H. Ikegami, (Universal Academy Press, Inc., Tokyo, Japan, Nagoya Japan, 1992), 421.
6. T. Ohmori, M. Enyo, Excess heat production during electrolysis of H2O on Ni, Au, Ag and Sn electrodes in alkaline media, in Third International Conference on Cold Fusion, "Frontiers of Cold Fusion", Ed: H. Ikegami, (Universal Academy Press, Inc., Tokyo, Japan, Nagoya Japan, 1992), 427.
7. M. Srinivasan, A. Shyam, T. K. Sankaranarayanan, M. B. Bajpai, H. Ramamurthy, U. K. Mukherjee, M. S. Krishnan, M. G. Nayar, Y. P. Naik, Tritium and excess heat generation during electrolysis of aqueous solutions of alkali salts with nickel cathode, in Third International Conference on Cold Fusion, "Frontiers of Cold Fusion", Ed: H. Ikegami, (Universal Academy Press, Inc., Tokyo, Japan, Nagoya Japan, 1992), 123.
8. Y. N. Bazhutov, Y. P. Chertov, A. A. Krivoshein, Y. B. Skuratnik, N. I. Khokhlov, Excess heat observation during electrolysis of Cs2CO3 solution in light water, in Fourth International Conference on Cold Fusion, Ed: T. O. Passell, (Electric Power Research Institute 3412 Hillview Ave., Palo Alto, CA 94304, Lahaina, Maui, 1993), vol. 2, 24.
9. R. T. Bush, R. D. Eagleton, Calorimetric studies for several light water electrolytic cells with nickel fibrex cathodes and electrolytes with alkali salts of potassium, rubidium, and cesium, in Fourth International Conference on Cold Fusion, Ed: T. O. Passell, (Electric Power Research Institute 3412 Hillview Ave., Palo Alto, CA 94304, Lahaina, Maui, 1993), vol. 2, 13.
10. E. E. Criddle, Evidence of agglomeration and syneresis in regular and excess heat cells in water, in Fourth International Conference on Cold Fusion, Ed: T. O. Passell, (Electric Power Research Institute 3412 Hillview Ave., Palo Alto, CA 94304, Lahaina, Maui, 1993), vol. 2, 32.
11. R. Notoya, Cold fusion by electrolysis in a light water-potassium carbonate solution with a nickel electrode. Fusion Technol. 24, 202 (1993).
12. T. Ohmori, M. Enyo, Excess heat evolution during electrolysis of H2O with nickel, gold, silver, and tin cathodes. Fusion Technol. 24, 293 (1993).
13. H. Ramamurthy, M. Srinivasan, U. K. Mukherjee, P. Adi Babu, Further studies on excess heat generation in Ni-H2O electrolytic cells, in Fourth International Conference on Cold Fusion, Ed: T. O. Passell, (Electric Power Research Institute 3412 Hillview Ave., Palo Alto, CA 94304, Lahaina, Maui, 1993), vol. 2, 15.
14. R. T. Bush, R. D. Eagleton, Evidence for electrolytically induced transmutation and radioactivity correlated with excess heat in electrolytic cells with light water rubidium salt electrolytes. Trans. Fusion Technol. 26, 344-354 (1994).
15. M. Srinivasan, P. A. Babu, M. B. Bajpai, D. S. Gupta, U. K. Mukherjee, H. Ramamurthy, T. K. Sankarnarainan, A. Sinha, A. Shyam, Excess heat and tritium measurements in Ni-H2O electrolytic cells, 1994
16. M. Srinivasan, M. C. H. McKubre, Two-balance method of Faraday efficiency measurement with external recombiner and open cell calorimetry for identifying origin of excess heat in Ni-H2O electrolytic cells, 1994
17. D. Cravens, Flowing electrolyte calorimetry, in 5th International Conference on Cold Fusion, Ed: S. Pons, (IMRA Europe, Sophia Antipolis Cedex, France, Monte-Carlo, Monaco, 1995), 79.
18. D. Cravens, A report on testing the Patterson power cell. Infinite Energy 1, 21 (1995).
19. R. Notoya, Nuclear products of cold fusion caused by electrolysis in alkali metallic ions solutions, in 5th International Conference on Cold Fusion, Ed: S. Pons, (IMRA Europe, Sophia Antipolis Cedex, France, Monte-Carlo, Monaco, 1995), 531-538.
20. Z. Shkedi, R. C. McDonald, J. J. Breen, S. J. Maguire, J. Veranth, Calorimetry, excess heat, and Faraday efficiency in Ni-H2O electrolytic cells. Fusion Technol. 28, 1720 (1995).
21. J. M. Niedra, I. T. Myers, Replication of the apparent excess heat effect in light water-potassium carbonate-nickel-electrolytic cell. Infinite Energy 2, 62 (1996).
22. R. Notoya, Low temperature nuclear change of alkali metallic ions caused by electrolysis. J. New Energy 1, 39 (1996).
23. T. Ohmori, M. Enyo, Iron formation in gold and palladium cathodes. J. New Energy 1, 15 (1996).
24. J. A. Patterson, System for electrolysis, USA, Patent #: 5,494,559, 1996
25. J. Rothwell, CETI's 1 kilowatt cold fusion device denonstrated. Infinite Energy 1, 18 (1996).
26. Z. Shkedi, Response to "Comments on 'Calorimetry, excess heat, and Faraday efficiency in Ni-H2O electrolytic cells'". Fusion Technol. 30, 133 (1996).
27. M. R. Swartz, The relationship between input power and enthalpic behavior of nickel cathodes during light water electrolysis, 1996
28. M. R. Swartz, The relationship between input power and enthalpic behavior of nickel cathodes during light water electrolysis. (1996).
29. G. Mengoli, M. Bernardini, N. Comisso, C. Manduchi, G. Zannoni, The nickel-K2CO3, H2O system: an electrochemical and calorimetric investigation, in Asti Workshop on Anomalies in Hydrogen/Deuterium Loaded Metals, Ed: W. J. M. F. Collis, (Italian Phys. Soc., Riccardi, Rocca d'Arazzo, Italy, 1997), 71.
30. G. H. Miley, Possible evidence of anomalous energy effects in H/D-loaded solids-low energy nuclear reactions (LENRS). J. New Energy 2, 6 (1997).
31. T. Ohmori, M. Enyo, T. Mizuno, Y. Nodasaka, H. Minagawa, Transmutation in the electrolysis of light water - excess energy and iron production in a gold electrode. Fusion Technol. 31, 210 (1997).
32. M. R. Swartz, Consistency of the biphasic nature of excess enthalpy in solid-state anomalous phenomena with the quasi-one-dimensional model of isotope loading into a material. Fusion Technol. 31, 63-74 (1997).
33. G. Lonchampt, J.-P. Biberian, L. Bonnetain, J. Delepine, Excess heat measurement with Patterson Type cells, in The Seventh International Conference on Cold Fusion, Ed: F. Jaeger, (ENECO, Inc., Salt Lake City, UT, Vancouver, Canada, 1998), 206.
34. E. Mallove, J. Rothwell, Preliminary assessment of the "Kinetic Furnace" of Kinetic Heating Systems, Inc.—An apparently excess energy producing technology employing unknown non-chemical reactions of water in contact with metals., in The Seventh International Conference on Cold Fusion, Ed: F. Jaeger, (ENECO, Inc., Salt Lake City, UT, Vancouver, Canada, 1998), 210.
35. G. Mengoli, M. Bernardini, C. Manducchi, G. Zannoni, Anomalous heat effects correlated with electrochemical hydriding of nickel. Nuovo Cimento Soc. Ital. Fis. D 20, 331 (1998).
36. T. Ohmori, T. Mizuno, Strong excess energy evolution, new element production, and electromagnetic wave and/or neutron emission in the light water electrolysis with a tungsten cathode, in The Seventh International Conference on Cold Fusion, Ed: F. Jaeger, (ENECO, Inc., Salt Lake City, UT, Vancouver, Canada, 1998), 279.
37. T. Ohmori, T. Mizuno, Excess energy evolution and transmutation. Infinite Energy 4, 14 (1998).
38. M. R. Swartz, Optimal operating point characteristics of nickel light water experiments, in The Seventh International Conference on Cold Fusion, Ed: F. Jaeger, (ENECO, Inc., Salt Lake City, UT, Vancouver, Canada, 1998), 371.
39. G. H. Miley, Emerging physics for a breakthrough thin-film electrolytic power unit, in Space Technol. Applic. Int. Forum, Ed: M. S. El-Genk, 1999), vol. 458, 1227.
40. M. R. Swartz, G. Verner, A. H. Frank, H. Fox, J. New Energy 4, 215-217 (1999).
41. G. Miley, On the reaction product and heat correlation for LENRs, in 8th International Conference on Cold Fusion, Ed: F. Scaramuzzi, (Italian Physical Society, Bologna, Italy, Lerici (La Spezia), Italy, 2000), 419.
42. G. Miley, G. Selvaggi, A. Tate, M. Okuniewski, M. J. Williams, D. Chicea, H. Horn, J. Kelly, Advances in thin-film electrode experiments, in 8th International Conference on Cold Fusion, Ed: F. Scaramuzzi, (Italian Physical Society, Bologna, Italy, Lerici (La Spezia), Italy, 2000), 169.
43. T. Mizuno, T. Ohmori, T. Akimoto, A. Takahashi, Production of heat during plasma electrolysis. Jpn. J. Appl. Phys. A 39, 6055 (2000).
44. T. Mizuno, T. Ohmori, K. Azumi, T. Akimoto, A. Takahashi, Confirmation of heat generation and anomalous element caused by plasma electrolysis in the liquid, in 8th International Conference on Cold Fusion, Ed: F. Scaramuzzi, (Italian Physical Society, Bologna, Italy, Lerici (La Spezia), Italy, 2000), 75-80.
45. C. H. Castano, A. G. Lipson, S. O. Kim, G. H. Miley, Calorimetric measurements during Pd-Ni thin film-cathodes electrolysis in Li2SO4/H2O solution, in The 9th International Conference on Cold Fusion, Condensed Matter Nuclear Science, Ed: X. Z. Li, (Tsinghua Univ. Press, Tsinghua Univ., Beijing, China, 2002), 24-28.
46. D. Chicea, On current density and excess power density in electrolysis experiments, in The 9th International Conference on Cold Fusion, Condensed Matter Nuclear Science, Ed: X. Z. Li, (Tsinghua Univ. Press, Tsinghua Univ., Beijing, China, 2002), 49.
47. M. Fujii, S. Mitsushima, N. Kamiya, K. Ota, Heat measurement during light water electrolysis using Pd/Ni rod cathodes, in The 9th International Conference on Cold Fusion, Condensed Matter Nuclear Science, Ed: X. Z. Li, (Tsinghua Univ. Press, Tsinghua Univ., Beijing, China, 2002), 96.
48. H. Yamada, S. Narita, Y. Fujii, T. Sato, S. Sasaki, T. Omori, Production of Ba and several anomalous elements in Pd under light water electrolysis, in The 9th International Conference on Cold Fusion, Condensed Matter Nuclear Science, Ed: X. Z. Li, (Tsinghua Univ. Press, Tsinghua Univ., Beijing, China, 2002), vol. 1, 420.
49. T. Mizuno, Y. Aoki, D. Y. Chung, F. Sesftel, Generation of heat and products during plasma electrolysis, in 11th International Conference on Cold Fusion, Ed: J.-P. Biberian, (World Scientific Co., Marseilles, France, 2004), 161.
50. J. Tian, L. H. Jin, Z. K. Weng, B. Song, X. L. Zhao, Z. J. Xiao , G. Chen, B. Q. Du, "Excess heat" during electrolysis in platinum/K2CO3/nickel light water system, in 11th International Conference on Cold Fusion, Ed: J.-P. Biberian, (World Scientific Co., Marseilles, France, 2004), vol. 1, 102.
51. J.-F. Fauvarque, P. P. Clauzon, J.-M. Lalleve, Abnormal excess heat observed during Mizuno-type experiments, in Condensed Matter Nuclear Science, ICCF-12, Ed: A. Takahashi, K. Ota, Y. Iwamura, (World Scientific, Yokohama, Japan, 2005), 80.
52. K. Iizumi, M. Fujii, S. Mitsushima, N. Kamiya, K.-I. Ota, Heat measurement during plasma electrolysis, in Condensed Matter Nuclear Science, ICCF-12, Ed: A. Takahashi, K. Ota, Y. Iwamura, (World Scientific, Yokohama, Japan, 2005), 133.
53. J. L. Naudin. (hhtp://jlnlabs.imars.com/cfr/, 2006).
54. A. Klimov, Energy Release and Transmutation of Chemical Elements in Cold Heterogeneous Plasmoids. JCMNS 19, 155-163 (2016).
55. V. Violante, E. Castagna, S. Lecci, G. Pagano, M. Sansovini, F. Sarto, Heat Production and RF Detection during Cathodic Polarization of Palladium in 0.1 MLiOD. JCMNS 19, 319-324 (2016).
I am still studying it- which ones are convincing you?
Ed explains why he thinks that only one form of LENR exists- it is imposed by Nature- according to hiis philosophy:
I believe a phenomenon so rare and novel as LENR would have only one mechanism as its source. Nature generally does its thing in the most efficient way. Both Ni and Pd are very much alike chemically and physically, hence would experience this mechanism in the same way. I see no reason to search for two different mechanisms unless a single mechanism does not work. So far, a single mechanism can explain all behavior using the metals.
My own philosophia naturalis says exactly the opposite, I think Nature's main ambition is to be interesting therefore Nature adores diversity.
I let Ed to have the last word(s)
No, nature uses only a few basic mechanisms and apples them to different situations. The different situations make the diversity.
About taxonomy.
I have published "mon amour" papers for Technology and for Taxonomy and this reflects what I am thinking and feeling. Taxonomy is about species too and recently Andrea Rossi has revealed that the QuarkX is a new species, the best one he has created - so there is evolution and progress in LENR. (By the way the history of our family is also bound to taxonomy, my wife's grandfather on the mother's side has discovered in 1916 a species of plant from the local flora Astragalus peterfii)
I think PdD and niH are different species and have to be treated separately. This is
what I called divorce at the introduction to this issue. EDITNMH is aimed for NiH.
The two species are hybridizable as at Mitchell Swartz' NANORs or as described recently by Akito Takahashi for the Japanese nanoparticles program. Let's hope that the LENR hybrids do not have the fertilty problems of a mule or a hinny.
However metaphors suck sometimes- let's prepare NiHEXIT smartly!
DAILY NEWS
1) From Cold Fusion to Condensed Matter Nuclear Science
http://www.i-sis.org.uk/coldFusionCondensedMatter.php
2) Some Novel Features of the Classical Electromagnetic Theory and their possible impact to understand and enhance Low Energy Nuclear Reaction (LENR)
https://www.researchgate.net/profile/Victor_Christianto/publication/309904030_Some_Novel_Features_of_the_Classical_Electromagnetic_Theory_and_their_possible_impact_to_understand_and_enhance_Low_Energy_Nuclear_Reaction_LENR/links/5825e2a208aeb45b5892c77a.pdf
Victor Christianto1,2,*, Yunita Umniyati3,4, Volodymyr Krasnoholovets5
1 Malang Institute of Agriculture (IPM), Jl. Soekarno-Hatta, Malang - INDONESIA
2 Founder & CEO of www.Ketindo.com, email: VictorChristianto@gmail.com
3 Head of Physics Laboratory, Swiss-German University, BSD City, Tangerang - INDONESIA. Email: Yunita.Umniyati@sgu.ac.id
4 Research & E-learning Development Director of www.Ketindo.com 5 Institute of Physics, Kiev, UKRAINE, email: vk@indra-scientific.com *url: http://www.researchgate.net/profile/Victor_Christianto
Abstract
In this paper we will discuss how we can study some effects associated with LENR from the principles of classical electromagnetic theory. We are aware that this approach has its own risks, because many mainstream physicists consider nuclear fusion should be associated with tunneling through Coulomb barrier, which is a pure quantum effect.
3)CNN covers Cold Fusion Device
http://coldfusion3.com/blog/cnn-covers-cold-fusion-device
4) Is the Promise of Cold Fusion Still Worth Waiting For?
http://trueviralnews.com/is-the-promise-of-cold-fusion-still-worth-waiting-for/
5) A LENR journalist and author made it to Wikipedia
Steven Krivit
https://en.wikipedia.org/wiki/Steven_Krivit
6) Is LENR real?
http://coldfusioncommunity.net/is-lenr-real/
LENR IN CONTEXT-2
What about the neuroscience of LENR?
The Neuroscience of Strategic Leadership
About taxonomy.
I have published "mon amour" papers for Technology and for Taxonomy and this reflects what I am thinking and feeling. Taxonomy is about species too and recently Andrea Rossi has revealed that the QuarkX is a new species, the best one he has created - so there is evolution and progress in LENR. (By the way the history of our family is also bound to taxonomy, my wife's grandfather on the mother's side has discovered in 1916 a species of plant from the local flora Astragalus peterfii)
I think PdD and niH are different species and have to be treated separately. This is
what I called divorce at the introduction to this issue. EDITNMH is aimed for NiH.
The two species are hybridizable as at Mitchell Swartz' NANORs or as described recently by Akito Takahashi for the Japanese nanoparticles program. Let's hope that the LENR hybrids do not have the fertilty problems of a mule or a hinny.
However metaphors suck sometimes- let's prepare NiHEXIT smartly!
DAILY NEWS
1) From Cold Fusion to Condensed Matter Nuclear Science
http://www.i-sis.org.uk/coldFusionCondensedMatter.php
2) Some Novel Features of the Classical Electromagnetic Theory and their possible impact to understand and enhance Low Energy Nuclear Reaction (LENR)
https://www.researchgate.net/profile/Victor_Christianto/publication/309904030_Some_Novel_Features_of_the_Classical_Electromagnetic_Theory_and_their_possible_impact_to_understand_and_enhance_Low_Energy_Nuclear_Reaction_LENR/links/5825e2a208aeb45b5892c77a.pdf
Victor Christianto1,2,*, Yunita Umniyati3,4, Volodymyr Krasnoholovets5
1 Malang Institute of Agriculture (IPM), Jl. Soekarno-Hatta, Malang - INDONESIA
2 Founder & CEO of www.Ketindo.com, email: VictorChristianto@gmail.com
3 Head of Physics Laboratory, Swiss-German University, BSD City, Tangerang - INDONESIA. Email: Yunita.Umniyati@sgu.ac.id
4 Research & E-learning Development Director of www.Ketindo.com 5 Institute of Physics, Kiev, UKRAINE, email: vk@indra-scientific.com *url: http://www.researchgate.net/profile/Victor_Christianto
Abstract
In this paper we will discuss how we can study some effects associated with LENR from the principles of classical electromagnetic theory. We are aware that this approach has its own risks, because many mainstream physicists consider nuclear fusion should be associated with tunneling through Coulomb barrier, which is a pure quantum effect.
3)CNN covers Cold Fusion Device
http://coldfusion3.com/blog/cnn-covers-cold-fusion-device
4) Is the Promise of Cold Fusion Still Worth Waiting For?
http://trueviralnews.com/is-the-promise-of-cold-fusion-still-worth-waiting-for/
5) A LENR journalist and author made it to Wikipedia
Steven Krivit
https://en.wikipedia.org/wiki/Steven_Krivit
6) Is LENR real?
http://coldfusioncommunity.net/is-lenr-real/
LENR IN CONTEXT-2
What about the neuroscience of LENR?
The Neuroscience of Strategic Leadership
Peter
ReplyDeleteI laugh when Krivit writes about A.R.
Prison past and Krivit own photo reminds
you of a thug that spent time in prison.
Sam
I don't think the validity of someone's writings are determined by what a particular photo looks like.
DeleteIf it was, Einstein would have been better employed as a double for 'Krusty the Clown'. As it turned out, he was actually quite clever and most of his writings have proven surprisingly accurate.
Comments from Lenr forum
ReplyDeleteMary Yugo
User Avatar
Verified User
Dec 24th 2016+2
With Rossi you get dodgy business associates passing around fake business cards and phantom companies with no discernable business model. With Steorn you get bar-girls. With Mills you get dozens of real-life non-anonymous experts. These experts bring with them verifiable backgrounds with decades of experience working at top tier research labs and R&D companies. The investors and board members are from premium VCs, law firms and industrial companies who have collectively ponied up over $120m and waited with extreme patience for Mills to do his thing. If Mills wasn't on the level, you can believe these folks have the resources and know-how to put an end to it.
I am not as confident as you are about the experience and intelligence of Mills' backers. What I can tell you is that his theory is poopoo'ed by most of main line physics. And as for practice, he has done absolutely nothing convincing in going on THIRTY years now. How long are you going to give him without a single properly done test by a major testing institution before you agree there is nothing of value to Mills and his devices?
JedRothwell, Malcolm Lear, Jack Cole and one other like this.
optiongeek
User Avatar
Student
Dec 25th 2016+3
Mary Yugo wrote:
I am not as confident as you are about the experience and intelligence of Mills' backers
Perhaps we don't run in the same circles. I'm very impressed with the Mills supporters I've come into contact with.
How long are you going to give him without a single properly done test by a major testing institution before you agree there is nothing of value to Mills and his devices?
As long as he needs. Someone can fake a lot. But no one can fake math. I've done the math. It checks out. Mills is right and it's just a matter of time before the world recognizes it.
Krivet the psycho has spent much of his life incarcerated as such, his mug shot tells all.
ReplyDeleteMy goodness… Oh my…
ReplyDeleteAny Time
I find my way back to poetry,
I know that healing has begun.
Is well underway, in fact.
Through the night we held the hand of darkness with tenderness,
Because there exists in words the danger.
Of the ‘too many’
And the ‘too few’
Understanding is all that matters.
This is why there is a special language for the heart.
It is poetry and only poetry the heart can trust.
Poetry is not the words but that which inspires the heart to stillness…
'Or to sing like the first birds,
who notice and celebrate at just the right moment.
That we are between,
and now.
So, when the dawn arrived in her delicate miracle, the garbage trucks
synchronized between you and me, declared in their blunt manner…
“I’M HERE TO COLLECT THE GARBAGE. TOO LATE TO CHANGE YOUR MIND.”
Matter of factually, they hauled away the ‘too many’ and the ‘too few’...
To the dump; a no-frills graveyard for things past.
Night whispers gratitude for your patience as she drifts away, satisfied.
And the day…
Like a loving farm wife preparing homemade biscuits and jam,
serves poetry for breakfast.
Sweet Dreams
and
Good Morning
-cherieblackfeather2010