Pressure Change
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Computer that captures and time logs the 1125 joule pulses from the domestic power meter (channel 5) as well as the low and high Geiger tubes used to monitor any possible Neutron activation of the Indium foil.
In this video, Dr. Parkhomov is placing the Indium foil into the water reservoir of his calorimeter.
Where wires will get really hot (like the heater wires and thermocouple leads), they were protected by painting on them, some of the same cement as used to seal the reactors and coat their bodies. In cooler areas, to avoid shorting to each other and to the pan body, especially as passed under the pan lid, they they were covered in silicone tubing.
A number of verifications were made in realtime on equipment that formed part of Dr. Alexander Parkhomov's experiment. Both visual and with the aid of a Digital Multi-Meter that was brought to the site of the experiment.
A presentation of the MFMPs recent work and future plans was made to an assembled audience of around 75 interested scientists, technicians and students from various institutions, commercial bodies and private individuals. This video clearly shows the slides, but is incomplete because the GoPro battery ran out. Another angle, showing the full presentation can be seen here: http://my.mail.ru/mail/andrey_dolgorukiy/video/2/2.html
In this video, the first dark, sintered ash sample is from an experiment that was calculated to have shown anomalous heat and reached a terperature of around 1100ºC. The second blueish powder sample reached around 1000ºC before the reactor heater failed. It did not show anomalous heat.
This video shows the main ceramic components of the Parkhomov reactor design as tested on 27th/28th February 2015. Video contains important tip about how to make a cheap pass-through the equivalent of an expensive rod. Heater tube OD: 18mm ID: 14mm Reactor tube OD: 10mm ID: 5mm
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