Corpus ID: 198825324

Study of a Power Source Based on Low Energy Nuclear Reactions (LENRs) Using Hydrogen Pressurized Nanoparticles

  title={Study of a Power Source Based on Low Energy Nuclear Reactions (LENRs) Using Hydrogen Pressurized Nanoparticles},
  author={George Hunter Miley},
  • G. Miley
  • Published 14 May 2017
  • Materials Science
We are studying anomalous heat, attributed to Low Energy Nuclear Reactions (LENRs), generated from metal alloy nanoparticles loaded with hydrogen (or deuterium) through pressurizing the vessel containing the particles. The primary result thus far is that the excess energies observed in experiments to date are all well above maximum estimation of what could be attributed to known chemical reactions. The discovery of ultra-high-density hydrogen cluster formation in void and dislocation loops has… Expand

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  • The Woodlands,
  • 2012
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  • SPIE Ablation, Taos, NM, 2004.
  • 2004
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  • Proceedings of the 8th International Conference of Cold Fusion, Italy, 2000, p. 335.
  • 2000