To get an accurate reading of the temperature, place a thermocouple inside the CaCO3 to protect the CaCO3 from the HHO. This can be done by drilling a hole into the CaCO3 to place the thermocouple close to the area of the reaction but not directly exposed to the reaction.
In Lugano, the temperature reading was off because of the anomalous active generation of light produced by the reaction. In that case, the temperature was NOT black body radiation.
In the case of Ohmasa gas, the titanium burned at very low temperatures even through the light produced by the reaction was extreme.
In general, using light that is produced by the reaction as a probe of temperature is not reliable.
To get an accurate reading of the temperature, place a thermocouple inside the CaCO3 to protect the CaCO3 from the HHO. This can be done by drilling a hole into the CaCO3 to place the thermocouple close to the area of the reaction but not directly exposed to the reaction.
In Lugano, the temperature reading was off because of the anomalous active generation of light produced by the reaction. In that case, the temperature was NOT black body radiation.
In the case of Ohmasa gas, the titanium burned at very low temperatures even through the light produced by the reaction was extreme.
In general, using light that is produced by the reaction as a probe of temperature is not reliable.
Preliminary but very promising results!