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The Martin Fleischmann Memorial Project is a group dedicated to researching Low Energy Nuclear Reactions (often referred to as LENR) while sharing all procedures, data, and results openly online. We rely on comments from online contributors to aid us in developing our experiments and contemplating the results. We invite everyone to participate in our discussions, which take place in the comments of our experiment posts. These links can be seen along the right-hand side of this page. Please browse around and give us your feedback. We look forward to seeing you around Quantum Heat.

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TOPIC: Three point measurement

#449 11 years 9 months ago
Three point measurement

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My suggestion is: to enclose three cells in three equally built boxes A,B,C with an exit pipe on each to measure the temperature. Boxes A and B have a calibration wire and the middle box C has a Celani wire. Input air for the tree units is from the same source/temperature and they should not be able to warm up the neighbour. If running in parallel then cell A and B should have the same measurements and any difference with cell
C is the excess heat?
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#450 11 years 9 months ago
Three point measurement

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jdk
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It depends on the margin of "zero" measurement errors and the size of the effect we want to measure. At the beginning of the experiment, we are not sure exactly how much heat our LENR device will make. We don't yet know how to optimize the conditions. Will we see micro-watts or mega-watts? Or no effect? If we see milliwatts of reaction, how can we confidently say we have found it? Look at the error potentials in all of the measurement channels. Can unknown (to us)chemical effects be happening? How do we run the control? What if we only have a few milliwatts of heat? This is a really difficult experiment.


jdk
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#457 11 years 9 months ago
Three point measurement

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jdk
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The three point technique might work if all three cells remain in a static condition. The Celani wire may be chemically active. It could be a catalytically active generator of atomic hydrogen. The atomic hydrogen is a much better conductor of heat than molecular hydrogen. Thus, more heat will be conducted to the outside of the box, while the interior cools. The outer temperature will increase, but there will be no actual generation of extra heat. The increased surface temperature will persist as long as the atomic hydrogen is being generated. (it quickly reacts with itself to reform hydrogen.) Atomic hydrogen is notoriously difficult to measure. It is highly magnetic while H2 is not, and this may provide a path to create a real time assay. Oxygen is also slightly magnetic and is frequently measured using magnetic techniques. The probability is "high" that H1 is being generated (~50%), in my opinion.


jkd
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#458 11 years 9 months ago
Three point measurement

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This is why the Celani V2 protocol is far better. It is calibrated and assessed with no gas - so no convection/conduction in gas in the debate.

B
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#1011 3 years 6 months ago
Three point measurement

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