It is certainly true that the peak occurs in a region that immediately follows the highest temperature obtained within the heat storage medium. The part that is anomalous is the fact that the bump I referred to at 16:00 is of relatively short duration while the temperature fall off curve from the model storage medium is broad and slow in nature. I would expect the overpressure additions to be broad to match this shape if due to the stored heat. The LENR explanation would be short in duration as is seen in the data. We should be happy that The LENR heating is demonstrated by this short duration bump as we have all been seeking. Your source should make further attempts to duplicate this shape if we are to be convinced that heat storage can achieve the identical results as LENR heating.
Dave -----Original Message----- From: Mary Yugo <[email protected]> To: vortex-l <[email protected]> Sent: Fri, Dec 23, 2011 7:15 pm Subject: Re: [Vo]:Mathematical modeling versus a blacksmith On Fri, Dec 23, 2011 at 2:13 PM, David Roberson <[email protected]> wrote: The curve I was referring to is the T2(mis) curve. There is a well defined bump that peaks at 16:00 time. This is one of the curves of the actual ECAT measurement and I was looking to see if your source demonstrated anything resembling it. I was expecting to see a reason that the model did not predict the relatively short duration "bump" that is so evident. Unless I am wrong, I interpret his explanation as "not really knowing" since this is the region where the most temperature delta occurs between his model and the real world. That is an OK answer for him to have-his model does not include the possibility that the LENR reaction produces a large pulse at this time due to the drive waveform that I described in my analysis explaining this bump. Also, the output power measurement at the same time shows a COP of 3 matching the input power pulse. We may have found additional proof that LENR is occurring which a non LENR model can not explain. Thanks Mary. Reply: "He is right. I did not understand correctly the curve he was referring to. But my previous answer to his question did (sort of) contain the explanation: the bump in the T2(mis) curve at 16:00 happens at the same time as the steam outflow peak, as shown on the lower left diagram of http://i.imgur.com/XAdrr.jpg, and in the upper left diagram of http://i.imgur.com/SWbvW.jpg. In the real life situation, this outflow peak induces some additional overpressure which increases the boiling temperature of the water in the ecat, but this portion of the relationship has not been modeled."
