PRECISION MEASUREMENT OF EXCESS ENERGY IN ELECTROLYTIC SYSTEM Pd/D/H₂SO₄ AND INVERSE-POWER DISTRIBUTION OF ENERGY PULSES VS. EXCESS ENERGY

 

 H. Kozima^1,2, W.-S. Zhang^2,3, and J. Dash^{2                                                                    
1}Cold Fusion Research Laboratory
597-16 Yatsu, Aoi, Shizuoka 421-1202, Japan
E-mail: hjrfq930@ybb.ne.jp
² Low Energy Nuclear Laboratory, Portland State University

Portland, OR 97207-0751, U.S.A.,

³ Institute of Chemistry, Chinese Academy of Sciences

P.O. Box 2709, Beijing 100080, China

 

 

 

     Excess energy was measured with a Seebeck envelope calorimeter in an electrolytic system containing a two mm diameter Pd tube cathode¹. After about 50 hours of electrolysis,

many power  bursts of excess energy were observed. 

The distribution of the number of power bursts N(P) with definite excess power P plotted on a logarithmic scale is expressed as a line with a gradient ≈ − 1 to – 2 by our preliminary estimation, showing the typical behavior of the 1/f noise. This characteristic behavior is discussed in relation to complexity in the mechanism of the excess energy generation in the experimental system.

 

Reference

 

1. W.- S. Zhang and J. Dash, “Excess Heat Reproducibility and Evidence of Anomalous Elements after Electrolysis  in Pd/D₂O+H₂SO₄ Electrolytic Cells”, submitted to ICCF13.