Look closer at this one: http://www.mtaonline.net/~hheffner/RossiT2Pout.png Let me give you a scenario. There is some back pressure on the E-Cat, so boiling temperature rises as high as 124 degrees. Note: This is in the believer's favor. If atmospheric pressure is lower, then the boiling point is lower, and even less power is required for 124 degree steam (because the specific heat of steam is lower).
In 6 hours of operation, 19.656 kg of water flows through the E-Cat. (.91 g/s x 60 sec/min x 60 min/hr x 6 hours) To raise all of the water from 24 degrees to 124 degrees, would take 1,965.6 kcal (19.656 kg x 100C) To vaporize all of the incoming water, 10,614.24 kcal (540 cal/g x 19.656 kg) This is 12,579.84 kcal over 6 hours, or 2,096,640 cal/hr, which is 2,436 Watts 2,436 Watts would completely vaporize the input water, and over that would deplete the water collected in the E-Cat. If we could actually rely on the E-Cat performance data, before this test was over, the E-Cat would have been bone-dry, and the steam should have been climbing to ever-higher temperatures. Please, anyone, tell me where this logic is flawed. Date: Mon, 10 Oct 2011 13:58:16 -0700 To: [email protected] From: [email protected] Subject: Re: [Vo]:Rossi heat exchanger fitting / SOME flow data At 12:16 PM 10/10/2011, Alan J Fletcher wrote: At 11:20 AM 10/10/2011, Jed Rothwell wrote: I said you will never get to the bottom of this, and it is not worth trying. You're probably right on that. So we're left with a purely qualitative demonstration. Ah well. It's buried in Lewan's data -- but as he pointed out in his responses to Krivit, he DID measure the eCat output flow twice (presumably at the usual drain). 18:57 Measured outflow of primary circuit in heat exchanger, supposedly condensed steam, to be 328 g in 360 seconds, giving a flow of 0.91 g/s. Temperature 23.8 °C. 19:08 Hydrogen pressure was eliminated. Flow from peristaltic pump increased. All electric power switched off. 19:22 Tin = 24.2 °C Tout = 32.4 °C T3 = 25.8 °C T2 = 114.5 °C Measured outflow of primary circuit in heat exchanger, supposedly condensed steam, to be 345 g in 180 seconds, giving a flow of 1.92 g/s. Temperature 23.2 °C. http://a2.sphotos.ak.fbcdn.net/hphotos-ak-ash4/304196_10150844451570375_818270374_20774905_1010742682_n.jpg 18:57 0.91 g/sec correlates with a minimum of the power -- 3500 W 19:22 1.92 g/sec correlates to a peak of power -- nearly 6000 W
