Physics – Condensed Matter
Scientific paper
Dec 2005
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2005cmns.conf...61d&link_type=abstract
CONDENSED MATTER NUCLEAR SCIENCE. Proceedings of the 10th International Conference on Cold Fusion. Held 24-29 August 2003 in Roy
Physics
Condensed Matter
Scientific paper
Energetics Technologies was recently established to investigate possibilities for inducing low energy nuclear reactions using special wave excitation. Four experimental approaches are being pursued: electrolysis, glow-discharge, gas loading in catalyst cells and high-pressure high-temperature cell with ultrasonic wave excitation. The experimental setups developed by Energetics Technologies are described along with preliminary results obtained. Significant amount of excess heat was measured in the first glow discharge experiment. The power generated during the experiment was up to 3.9 times the input power. When driven with waves the excess heat was higher that when driven with DC. Significant amount of excess heat was also measured after the shutdown of the glow discharge; it lasted for approximately 10 h. The total excess energy generated is estimated to be 6.7 times the input energy. The "heat-after-death" phenomenon was also observed in another glow discharge experiment. Excess heat up to approximately 80% was measured over a period of over 3 months in yet another glow discharge experiment. Driving the electrolytic cells with waves resulted in a faster loading than when driving them with DC of the same average current. The tritium concentration in the electrolyte measured at the end of the experiments was found to be up to more than 100% the pre-experiment level. No excess heat was measured, so far, in the catalyst cells. Successful loading of Pd target with D was obtained in the high-pressure high-temperature gas cell without going through the α + β phase of the Pd-D system.
Branover H.
Dardik I.
El-Boher A.
Gazit Doron
Golbreich E.
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