Famulus fusion
Famulus fusion
http://prometheusfusionperfection.com/2 ... le-bubble/
Seems like he has got neutron bubbles, four in fact.
Officially, this is more fusion than the EMC2 Polywell experiments to date who got 3 neutron bubbles for WB-6.
Seems like he has got neutron bubbles, four in fact.
Officially, this is more fusion than the EMC2 Polywell experiments to date who got 3 neutron bubbles for WB-6.
.. and gets into The Neutron Club - http://prometheusfusionperfection.com/2 ... tron-club/ !
Congratulations Prometheus!
Are we still on for 5MW by christmas?
Congratulations Prometheus!
Are we still on for 5MW by christmas?
Re: Famulus fusion
Not quite. 3 neutron counts with EMC's electronic detectors do not directly convert to the bubble count unless they have the same sensitivity , area, and distance. And of course time. This run was ~ 40 minutes (2400 seconds). WB6 was ~ 0.25 milliseconds. WB6 reportedly produced ~ 500,000,000 neutrons per second. The rate for this test was probably around 1,000- 10,000 (or less) neutrons per second (ball park figure). IE: my guesstimate is that the Polywell was producing at least ~ 100,000 times as many neutrons per second. The best amateur fusors are getting ~ 1-10 million fusions per second. The bubbles this would represent depends on the bubble detector calibration ( they come in several sensitivities), the distance from the reactor center ( some argument about where most of the fusions are occurring in a gridded fusor), and the duration of the run.icarus wrote:http://prometheusfusionperfection.com/2 ... le-bubble/
Seems like he has got neutron bubbles, four in fact.
Officially, this is more fusion than the EMC2 Polywell experiments to date who got 3 neutron bubbles for WB-6.
[EDIT]. The neutron production rate for WB6 were not astounding when taken out out of context. But, the results were obtained at very limited conditions, compared to what the machine is claimed to be capable of with scaling predictions. The best gas discharge gridded fusors are operating near maximum efficiency, though some tricks like what Hirsch did can squeeze out several orders of magnitude better performance. The Polywell matches or exceeds this performance in it's most basic condition (WB6, earlier versions were probably significantly better than gridded fusors but still fell short on growth potential).
Dan Tibbets
To error is human... and I'm very human.
He should implement some 'fool-proof' mechanisms, especially if he's done it twice now. To leave a risk of doing it a 3rd time would be crazy.
The valve between chamber and turbo should only be a gate valve to regulate the flow. It doesn't have to be a 'fully closed' valve type.
So if anyone is in contact with him, or he reads this, just wedge something in the way of the gate so that it can't close completely. Then, there can never be a build up of gas in the chamber with the turbo running.
I did this myself a few weeks back. Fortunately I have a multi-turn bellows valve, which is not something you can open quick anyway. A leaky regulator had bled gas into the chamber, I thought the valve was already part opened, and so I went to open it some more!
The turbo did an extreme speed decent and I closed the valve again quick. Prob not full air pressure in the chamber, and prob only a tiny opening on the valve. The pump seems OK (a bit worried I've taken good life off the bearings), but I skipped a few heart-beats when I heard the poor pump take its nose-dive.
So I shall also be implementing my own good advice here to avoid that again and will install a 'full-close preventer' when the chamber is open next. I also have a vent valve to the chamber and to evacuate the back-side of a flow control orifice, and will be adding a fine orifice to that so that, if it is opened suddenly with the turbo going, it'll admit air at a rate, hopefully, slow enough for me to close it again.
The valve between chamber and turbo should only be a gate valve to regulate the flow. It doesn't have to be a 'fully closed' valve type.
So if anyone is in contact with him, or he reads this, just wedge something in the way of the gate so that it can't close completely. Then, there can never be a build up of gas in the chamber with the turbo running.
I did this myself a few weeks back. Fortunately I have a multi-turn bellows valve, which is not something you can open quick anyway. A leaky regulator had bled gas into the chamber, I thought the valve was already part opened, and so I went to open it some more!
The turbo did an extreme speed decent and I closed the valve again quick. Prob not full air pressure in the chamber, and prob only a tiny opening on the valve. The pump seems OK (a bit worried I've taken good life off the bearings), but I skipped a few heart-beats when I heard the poor pump take its nose-dive.
So I shall also be implementing my own good advice here to avoid that again and will install a 'full-close preventer' when the chamber is open next. I also have a vent valve to the chamber and to evacuate the back-side of a flow control orifice, and will be adding a fine orifice to that so that, if it is opened suddenly with the turbo going, it'll admit air at a rate, hopefully, slow enough for me to close it again.
FIXED
The vacuum system is working!!!!!!!
Now for the sydney experiment.
http://prometheusfusionperfection.com/2011/02/17/fixed/
Now for the sydney experiment.
http://prometheusfusionperfection.com/2011/02/17/fixed/
Re: FIXED
Glad to hear it. 98 nanotorr, not bad!FAMULUS wrote:The vacuum system is working!!!!!!!
Now for the sydney experiment.
http://prometheusfusionperfection.com/2011/02/17/fixed/
Are you still using these:
http://prometheusfusionperfection.com/2 ... the-coils/
n*kBolt*Te = B**2/(2*mu0) and B^.25 loss scaling? Or not so much? Hopefully we'll know soon...
Yup.
I'm doing the final fit and finish for the whole experiment:
https://picasaweb.google.com/lh/photo/0 ... directlink
I'm doing the final fit and finish for the whole experiment:
https://picasaweb.google.com/lh/photo/0 ... directlink