I'm not claiming this thing works, or ever will work, as I haven't built it yet. I'm still working on gathering all the parts I need. Last week I got the 3D model complete, so now I have to get the 3D prints and those are pricey so I need some time to save for the parts.
I have a repository for all the 3D files if anyone would wish to replicate this hypothesis.
https://github.com/ChristopherBenjaminHemmens/flux-millFlux Mill 3D Model
Flux Mill 3D Model based on Hypothesis of Magnetic Wind-Mills:
https://pure.tue.nl/ws/portalfiles/portal/147007566/Duarte_EssayMagWindMillsPart1_final.pdfView 3D Model at Sketchfab:
https://sketchfab.com/3d-models/flux-mill-magnetic-wind-mill-e5ea704521ac4960827bc10e5f821857Should you wish to build: Required parts for build, 3D print:
2x base
8x big cylinder
2x big gear
48x small cylinder
6x small gear
Each cylinder sits at 360/8 = 45 degree angles from the next cylinder.
Cylinder offsets
Cyl1 0/360 degrees
Cyl2 45 degrees
Cyl3 90 degrees
Cyl4 135 degrees
Cyl5 180 degrees
Cyl6 225 degrees
Cyl7 270 degrees
Cyl8 315 degrees
Middle axel is rotated at 5 degrees against outer axels and held in place using the gears/cogs, see hypothesis.
Parts:
7x 8mm diameter x at least 120mm steel rod for a shaft.
14x 8mm bore bearings
168x 10x3mm N52 Neodymium magnets
56x 2mm steel rods to hold everything in place.
4x M8 (8mm bore) threaded rod roughy 250mm in length each + 16x nuts suited for the thread to hold and adjust base corners (Buy in your local hardware store)
28x M5 (5mm bore) bolts of between 12 to 20mm in length + suited 38x suited nuts to screw down bearing (Buy in your local hardware store)
Some adhesive to stick magnets down. (Buy in your local hardware store)