Equal proportions by volume.
While the excess heat is detected. I suspect case of insufficient saturation with hydrogen Ni. Or, perhaps, the lack of Li.
The mixture was heated in a metal pipe, 0.8Sm diameter at a constant hydrogen flow. Filling - 1/3 volume.
Heater - ceramic tube Si2O3, with spiral wound nichrome, the top is covered with heat-resistant cement Secar-71.
Time and temperature sections:
1. The process of hydrogenation (within 2 days, 1 day - the rise to 120C, exposure, 2nd day rise - up to 170c, exposure).
2. The slow rise to 1100 C for 9-hours.
3. Sudden changes in temperature, lowered from 1100 to 950, 950-1100, 1100 - 750, 1100-400-1100 - LENR found no effect. Here:
http://jivisam.ru/uploads/energia/200-1100c.jpg,
http://jivisam.ru/uploads/energia/1100-750c.jpg ,
http://jivisam.ru/uploads/energia/3.12_.15_900-300-1000_.jpg
Blue line- power consumption. Upon lowering the temperature, it correctly considered. Heater physically disabled. Still, the reactor was further insulated,
why it plummeted power. Interference with thermocouples were even with the heater off (red - temperature)!
At the moment, there is another experiment, with the "original" with a mixture of Ni-Mh battery. At least with her I had the molten droplets and nickel alloyed metal tube. When the temperature on the thermocouple 1000-1050S. Unfortunately, at that time it was not heat-resistant heater, all melted.
Where the data can be found on the hydrogen solubility in nickel at atmospheric pressure and different temperatures? Met disparate data .. I would like to know exactly.
