As I recall, at the same time the hydrogen was discharged, the water flow rate was increased - basically being doubled. This caused short term stored energy (hot water) to be pushed out of the E-cat output and then measured in the heat exchanger. If you look at the reactor temperature, it begins declining at the moment that the hydrogen is discharged - and, of course, the increased flow rate speeds the cooling of the reactor temperature. If you look at the short term heat output measured at the exchanger, it nearly doubles immediately from the increase in flow rate delivering the stored heat from the reactor more quickly to the exchanger. Regards, Bob Higgins ________________________________
From: Jed Rothwell [mailto:jedrothw...@gmail.com] Sent: Friday, October 14, 2011 1:38 PM To: vortex-l@eskimo.com Subject: Re: [Vo]:Thermocouple extends beyond steel nut? Peter Heckert <peter.heck...@arcor.de> wrote: In this case, the skeptics are ignoring the fact that the heat increased during heat after death, instead of declining according to Newton's law. This proves they are wrong. I have not seen a response from any of them trying to explain this fact. This is not ignored. If he makes a 3 degree error in temperature measurement, this reduces the energy by more than 50%. Heat after death is then easier to explain and all calculations how much fuel or current is needed are then invalid. The error could be 90%. You still cannot explain how the temperature can go up without input power. In fact, other analyses show that a 3°C error is unlikely. - Jed
