In my opinion, the rate at which heat energy is removed from the casing by the airflow is a strong controller of the reaction stability. As expected, as long as the internally generated heat due to the reaction is less than the amount of heat energy escaping through the case at a given temperature, the device should usually be stable. There may be some delay related energy releases that lead to local runaway events. This is a complex system that looks simple. I am hoping that we finally have a device that works.
Dave Sent from Mail for Windows 10 From: Arnaud Kodeck Sent: Friday, June 28, 2019 4:24 AM To: [email protected] Subject: RE: [Vo]:Exponential and self-heating reactions are not necessarily unstable The huge size of the reactor is an advantage against runaway of the LENR reaction. From: Jed Rothwell <[email protected]> Sent: Friday, 28 June 2019 01:56 To: Vortex <[email protected]> Subject: Re: [Vo]:Exponential and self-heating reactions are not necessarily unstable Arnaud Kodeck <[email protected]> wrote: The design of the reactor is huge to compare with the amount of heat. Oh come now. Obviously it has not been optimized. It is 60 cm long and the meshes are only 30 cm long. It is half empty. It also has not been driven to maximum temperature. Mizuno has projected that it could be far hotter with much higher power density.
