A little study does shed a little light.
Now I can concentrate on size of wire for the alternator stator, enough current for a particular cell size.
Then wind some chokes and amp inhibiting coil per Meyer third wire diagram.
On this Meyer diagram it could be interpreted in many ways.
What I see is:
On stator dual bifilars 616a-616b, in those Meyer alternator pics we all see tri-filar maybe #18 wire wraps.
Makes me wonder if the third wire with the bifilar is wrapped on the stator, and called 619 induction core and 617 amp inhibiting coil.
Notice that the resonant charging chokes 56/62 are square box's showing no coil and my thinking would be air chokes and not on any core.
If calculated correctly in an earlier post I put something like 120 tight turns #18 on 1" form and this equals 11.6kohms impedance at some frequency (maybe 5k this information needs to be checked again).
#18 200c is good for pretty high current, then derated with temperature, its very hard to find the proper sheet.
Based on what I read at 30c or 86f #18 in 90c jacket can do 14 amperes, this same wire at 80c or 176f can do 41% of 14 amperes.
200c coating will go a little higher in current lets say a couple amps so maybe 16 amperes.
80c is pretty hot and I have gotten to 65c before which would be 58% so just under 10 amperes per wire would be 20 or so amperes per 2 wire bifilar.
This would or could equate to up to 60 amperes max available output of the stator.
Now add in chokes at single wire #18, max out with no temperature rise could be as high as 15 amperes maybe derate to 66% 10 amperes per phase should be up to 30 amperes easily to cell available.
Now if Meyers circuit would inhibit amps and the rotor was driven easily to 5-7k rpms and we got high voltage out over 100v, I'd be interested to see how much gas can be released with this method.
I'm thinking using #18 wire.
Maybe that induction core is not part of the stator. It might have to be a separate core 619 and coil 617. This is something still to think about what will happen here in this coil.
Also a decision if charging chokes 56/62 should be on stator or separate?
It also may be possible these chokes 62 and 56 are why the secondary is dual bifilar.
It may just be a center tapped secondary with 2 chokes, total of 4 wires in hand.
If we choose to revue Figure 8-10 along with figure 8-11, then there is dual bifilar coils on the alternator and the chokes are outer coils. On 8-11 he mentions/points out (85) on the 0 connection which is used to propagate either static or dynamic electrical charging effect.
In this case there there is 4 wires in hand and tied as center tapped dual bifilars.
6 outer chokes, and an amp inhibiting coil.
The 0V (85)(621) is what has my attention.