Accession Number : ADA315020
Title : Anomalous Effects in Deuterated Systems.
Descriptive Note : Final rept. Jan 92-Sep 95,
Corporate Author : NAVAL AIR WARFARE CENTER WEAPONS DIV CHINA LAKE CA
Personal Author(s) : Miles, Melvin H. ; Bush, Benjamin F. ; Johnson, Kendall B.
PDF Url : ADA315020
Report Date : SEP 1996
Pagination or Media Count : 103
Abstract : Excess power was measured in 28 out of 94 electrochemical experiments conducted using palladium or palladium alloy cathodes in heavy water. Reproducibility continues to be the major problem in this controversial research area. Based on our experiments, this lack of reproducibility stems from unknown variables in the palladium metal. The best reproducibility for excess power was obtained using palladium boron materials supplied by the Naval Research Laboratory. Our basic isoperibolic calorimeters were capable of measuring excess power with a sensitivity of +/- 1% of the input power or +/- 20 mW, whichever was larger. Calorimeters that are capable of detecting excess power levels of 1 watt per cubic centimeter of palladium are essential for research in this field. Results from our laboratory indicate that helium-4 is the missing nuclear product accompanying the excess heat. Thirty out of 33 experiments showed a correlation between either excess power and helium production or no excess power and no excess helium. The collection of the electrolysis gases in both glass and metal flasks place the helium-4 production rate at 10(exp 11) to 10(exp 12) atoms per second per watt of excess power. This is the correct magnitude for typical deuteron fusion reactions that yield helium-4 as a product. Anomalous radiation was detected in some experiments by the use of X-ray films, Geiger-Mueller counters, and by the use of sodium iodide detectors. There was never any significant production of tritium in any of our experiments.
Descriptors : *ADSORPTION, *DEUTERIUM, *NUCLEAR FUSION, ANOMALIES, HELIUM, PALLADIUM, CALORIMETERS, ELECTROLYSIS, GEIGER COUNTERS, DEUTERON REACTIONS, BORON ALLOYS, PALLADIUM ALLOYS, HEAVY WATER.
Subject Categories : Fusion Devices(thermonuclear)
Distribution Statement : APPROVED FOR PUBLIC RELEASE