I hope that at the 25th Anniversary of CF, palladium will be history. Its limits are inherent and incurable. And it's its scarcity is annihilating the chances to be an important source of energy. 350W per kg...multiply it by 1000 and it starts to become interesting Peter
On Fri, Mar 2, 2012 at 9:22 PM, <pagnu...@htdconnect.com> wrote: > Corrections: > Title line should read "350W/Kg" - date is March 23 - session URL is > http://www.lpi.usra.edu/meetings/nets2012/pdf/sess462.pdf > > Does anyone know whether Dick Smith's offer extends to Miley's lab, and > whether Miley would accept? > > Lou Pagnucco > > > > > A Game-Changing Power Source Based on Low Energy Nuclear Reactions > (LENRs) > > http://www.lpi.usra.edu/meetings/nets2012/pdf/3051.pdf > > > > To be presented March 22, at The Woodslands, TX at > > NETS (Nuclear and Emerging Technologies for Space meeting) > > http://anstd.ans.org/NETS2012/NETS2012Home.html > > http://www.lpi.usra.edu/meetings/nets2012/pdf/sess301.pdf > > > > EXCERPT: > > Excess heat generation from our gas-loading LENR power cell (Figure 1) > has > > been verified, confirming nuc-lear reactions provide output energy. While > > there are similarities between ours and the Rossi E-Cat gas-loaded kW-MW > > LENR cells that have attracted inter-national attention, there are > > important differences in nanoparticle composition and cell construction. > > Our experiment has established a remarkable proof-of-principle power unit > > at ca. 350W/kg under room tem-perature when using deuterium (D2) gas (H2 > > can also be employed) with Pd rich nanoparticles, producing 1479J heat, > > well above the maximum exothermal ener-gy (690J) possible from all > > conceivable chemical reac-tions (Figure 2). Neglecting unlikely chemical > > reaction contributions, the energy gain is virtually unlimited due to > > negligible power input with gas loading! ... > > > > > > > > > > > > > -- Dr. Peter Gluck Cluj, Romania http://egooutpeters.blogspot.com
