To do that, they will need to insulate the reactor from the coolant. So they can increase the flow rate of cold water and keep same temp in the reactor. Then another the problem might occur about stability of the reaction.
I've asked on the chat box to show the steam out the pipe. No answer :-( Bad sign. _____ From: David Roberson [mailto:dlrober...@aol.com] Sent: mardi 23 juillet 2013 21:32 To: vortex-l@eskimo.com Subject: Re: [Vo]:DGT Temperature Output Appears to Have a Problem Arnaud, The internal temperature is most likely what must be maintained to keep it running. If they could conduct a bit less heat outward then the internal heat could be maintained high at the same time. This would be a balancing act though. Someone would have to play with the cooling coils to adjust their position and contact. Mats should find a way to expose the output water stream to the air and see if it is violently ejected due to the pressure that should be associated with the elevated output temperature of the steam. My suspicion is that they are not getting an accurate reading of the steam itself. This is unfortunate. Dave -----Original Message----- From: Arnaud Kodeck <arnaud.kod...@lakoco.be> To: vortex-l <vortex-l@eskimo.com> Sent: Tue, Jul 23, 2013 3:28 pm Subject: RE: [Vo]:DGT Temperature Output Appears to Have a Problem Dave, I'm fully agreed with you, but maybe to keep the reactor running, they need that temp out . Arnaud _____ From: David Roberson [mailto:dlrober...@aol.com <mailto:dlrober...@aol.com?> ] Sent: mardi 23 juillet 2013 21:23 To: vortex-l@eskimo.com Subject: [Vo]:DGT Temperature Output Appears to Have a Problem I have been watching the DGT demo with enthusiasm. The technique that they use to measure the output power gives me pause because of the elevated output reading that they use to calculate the power. I noticed that the output temperature is in the ballpark of 150 C, which I have a strong suspicion is not what the output water is actually exhibiting. This may be a metallic structure reading instead of water since the internal temperature readings are so large. I am not capable of interacting with the on line demo so perhaps someone else might ask them about this issue for me. They should increase the water flow enough to keep the water from boiling in order to prove that the power is as measured by their experiment. Otherwise, I would just assume that the water is boiling and at 100 C provided it is proven dry. Does anyone else share this concern? Dave
