摘要
Dry, preloaded NANOR (R)-type technology makes LANR reactions more accessible. These self-contained, two-terminal nanocomposite ZrO2-PdNiD CF/LANR components have at their core ZrO2-PdD nanostructured material. The excess energy gain compared to driving input energy is up to 20 times the input; characterized by reasonable reproducibility and controllability. The CF/LANR/CF activation is separated from its loading. Although small in size, the LANR excess power density is more than 19,500 W/kg of nanostructured material, with zero carbon footprint.
- 出版日期2015-2-25