Selfrunning Free Energy devices up to 5 KW from Tariel Kapanadze

[NickZ]

  It may be possible to limit any runaway condition by going through another Cfl bulb then back to the battery input side. I did not have the big 65watt Cfl bulb connected at that time. Like in the picture.  But, it may be possible to take the secondary coils output, through another drop down transformer, and back to the input side.
I've tried 1000uf caps, but have not gotten anything unusual from it, yet. I alway use an earth ground, or two earth grounds, but coming off of the same ground wire, not separate ones, which might work better.

[jbignes5]

  It may be possible to limit any runaway condition by going through another Cfl bulb then back to the battery input side. I did not have the big 65watt Cfl bulb connected at that time. Like in the picture.  But, it may be possible to take the secondary coils output, through another drop down transformer, and back to the input side.
I've tried 1000uf caps, but have not gotten anything unusual from it, yet. I alway use an earth ground, or two earth grounds, but coming off of the same ground wire, not separate ones, which might work better.

Or you could put a solenoid coil in line that will choke the back feed. You just want to limit the flow back to the input. Just remember about the resonant condition of coils. You don't want the choke to go into resonance that way it will choke the current off. You might have to do this to the input of the run away device. The current is killing the unit. Choke it off a bit and see if that helps.

[a.king21]

  It may be possible to limit any runaway condition by going through another Cfl bulb then back to the battery input side. I did not have the big 65watt Cfl bulb connected at that time. Like in the picture.  But, it may be possible to take the secondary coils output, through another drop down transformer, and back to the input side.
I've tried 1000uf caps, but have not gotten anything unusual from it, yet. I alway use an earth ground, or two earth grounds, but coming off of the same ground wire, not separate ones, which might work better.

Runaway: Kapanadze uses a spark gap in parallel with the output load to prevent runaway. That way you can adjust the gap to get the balance just right.

[NickZ]

  Yes, a spark gap may work also, but they are noisy. A series connected Cfl back to input source does not make noise, at all, but does not light in this case. It is used for the same purpose as the spark gap, but as it can't be adjusted,  I use different Cfls to see which one works best for this purpose. All these different circuit configurations are feed back circuits, as well.

[a.king21]

  Yes, a spark gap may work also, but they are noisy. A series connected Cfl back to input source does not make noise, at all, but does not light in this case. It is used for the same purpose as the spark gap, but as it can't be adjusted,  I use different Cfls to see which one works best for this purpose. All these different circuit configurations are feed back circuits, as well.

Yes, I agree. However if the parallel load is too great then you also kill the loop. With the spark gap method you get to tune it. So my opninion is that a spark gap in parallel to start with, and afterwards experiment with a quiet method.
Anyway, good luck and please post your circuits when you have  time.