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Wednesday, August 31, 2011

Energy catalyzer experiment conclusions

Operation
The experiment was continually running from 10:45 to 16:30 when it was stopped by switching off the heater and increasing the cooling water flow to a maximum of 30 liters per hour. On two occasions during the steam production phase, David Bianchini tested the radiation level which did not differ from the normal level in the room. The temperature at the outlet was controlled continually to be above 100°C. According to the electronic log-book it remained always between 100.1 and 100.2 °C during the operation from 10:45 to 16:30 as can be seen in figure 7. Between 11:00 and 12:00 o’clock, control measurements were done on how much water that had not evaporated. The system to measure the non-evaporated water was a certified Testo System, Testo 650, with a probe guaranteed to resist up to 550°C. The measurements showed that at 11:15 1.4% of the water was non-vaporized, at 11:30 1.3% and at 11:45 1.2% of the water was non-vaporized. The energy produced inside the device is calculated to be (1.000-0.013)(16:30-10:45)4.39 =25 kWh.




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Tuesday, August 30, 2011

Energy Catalyzer experiment

Initial running to reach vaporization.
The temperatures of the inlet water and the outlet water were monitored and recorded every 2 seconds. The heater was connected at 10:25 and the boiling point was reached at 10:42. The detailed temperature-time relation is shown in figure 6. The inlet water temperature was 17.3 °C and increased slightly to 17.6 °C during this initial running. The outlet water temperature increased from 20 °C at 10:27 to 60 °C at 10:36. This means a temperature increase by 40 °C in 9 minutes which is essentially due to the electric heater. It is worth noting that at this point in time and temperature, 10:36 and 60°C, the 300 W from the heater is barely sufficient to raise the temperature of the flowing water from the inlet temperature of 17.6 °C to the 60 °C recorded at this time. If no additional heat had been generated internally, the temperature would not exceed the 60 °C recorded at 10:36. Instead the temperature increases faster after 10:36, as can be seen as a kink occurring at 60 °C in the temperature-time relation. (Figure 6). A temperature of 97.5 °C is reached at 10:40. The time taken to bring the water from 60 to 97.5 °C is 4 minutes. The 100 °C temperature is reached at 10:42 and at about 10:45 all the water is completely vaporized found by visual checks of the outlet tube and the valve letting out steam from the chimney. This means that from this point in time, 10:45, 4.69 kW power is delivered to the heating and vaporization, and 4.69 – 0.30 = 4.39 kW would have to come from the energy produced in the internal nickel-hydrogen container.



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