That would ensure that the induced current within the coils was very close. If the induction heater operates at 60 hertz then you are going to have a very hard time getting enough current to flow inside the coils. This is because the resistance of the wires is far, far greater than what is observed within a metal pan. I don't think your plan will work unless RF is used for the source power.
Of course you will have to consider the direct heating of the fuel due to the changing magnetic field. Recall that one of the Russian companies that the MFMP guy visited is using induction heating that is only applied to the fuel plus without any other coils. Why not use the normal easy to measure systems? Dave -----Original Message----- From: Jones Beene <[email protected]> To: vortex-l <[email protected]> Sent: Fri, Mar 20, 2015 10:48 am Subject: RE: [Vo]:Am I the only one.. Matter of fact, the windings of the two tubes to be tested can be cross-connected as one circuit so that induced power is identical * Start with an 1800 watt induction “hob” or hot plate - $70 from Amazon. http://www.amazon.com/Rosewill-1800-Watt-Induction-Stainless-RHAI-13001/dp/B 00GTZMHOW/ref=sr_1_2?ie=UTF8&qid=1426860024&sr=8-2&keywords=induction+cooker * Use Kanthal windings on both tubes - of identical length and turns. Current is induced into the Kanthal wire by the hob. Then test the two samples in different orientations, but always side by side on the hob so as to eliminate the complaint that induction coupling is not the same for both.
