I await patiently with great expectations Jones. My bet is that he will be able to rapidly raise the current performance provided he is actually generating true excess heat and I will happily evaluate his performance curves once they become available. When he detects a rapid rise in temperature for a relatively small input power adjustment then it is time to roll. That is the best simple indicator of a positive thermal feedback system.
Dave -----Original Message----- From: Jones Beene <[email protected]> To: vortex-l <[email protected]> Sent: Tue, Jan 27, 2015 4:45 pm Subject: RE: [Vo]:Jack Cole improvement in LiOH design From: David Roberson Ø It is truly amazing that my model can take the input coolant temperature, ambient temperature, and pulse power magnitude and timing as inputs and generate a virtually flat line in simulated coolant temperature once the noise sources are subtracted from the measured coolant input data… Once the balance is disrupted by excess power, I can add that back to the input signal so that balance is again restored. The addition is an accounting of the excess energy that the device generates. With this system I can detect an addition of approximately 1000 joules of excess energy per pulse. Dave, I think your expertise in modeling could be invaluable to Jack Cole and others, and I agree that he is not ready for prime time yet. Stand by, since things could move fast in the next few months. Any of the improvements mentioned in previous post could bump the gain in the simple system to COP= 2, assuming that the operative reactions is scalable, which we almost have to assume, given Rossi/Parkhomov’s claimed results. Jones
