Brillouin Energy Corporation with SRI, technology paper for ICCF17.
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Experimental: Calorimetry Heat transfer fluid (MobileTherm 603) recirculating through coil in electrolyte 98% of resistive heater input recovered Up to 200°C and up to 130bar. A re-circulating chiller (Neslab RTE111) A 100MHz Fluke 196C oscilloscope meter, operating in "AC (rms) + DC" mode, The only input to the system is electric power and the only output from the system is heat Heat losses at different temperatures measured
Results: Pressurized Cell Ni/H2O electrolysis 50% Excess power most of the 66 hour run Pulse: Swept repetition rate, stepped amplitude, third proprietary function
Fig. 3. Plot of power and temperature versus time for Experiment 1
Results: Pressurized Cell Continuation of Ni/H2O Electrolysis on last slide Excess Power jumped from 55% to 70% Pulse function parameters changed with minimal change in input power
Fig. 5. Calorimetric results from Experiment 3 continued
Results: Pressurized Cell Part of Ni/H2O electrolysis experiment Excess Power ≥75% for 11 hours, ≥80% for 7 hours Pulse function parameters changed with no change in input power
Results: Pressurized Cell Part of Ni/H2O electrolysis experiment Excess Power ≥100% for 6 hours Pulse function parameters changed with minimal change in input power
Part of Ni/H2O electrolysis experiment Excess Power alternated between 0 and 20% Alternating pulse repetition rate led to Pxs alternating between 0 and 20%