Hi gang,
August has been a busy month for my RE projects. I was going to post several things, but if I tried to post 4 simultaneous threads, I bet you guys would start accusing me of being a forum-hog! There are some things worth sharing, though, so some blurb and photos...
After only 2 weeks running the first generator on my windmill, (axial-flux, cast-stator, dual rotor), I managed to burn it up in a moderate amount of wind. The tail should have been furling, but I had too much weight on it so I got what I deserved. The 8-foot diameter prop didn't help - too much input power for too little output power. There was a recent thread about a series of burned-out stators, in which a combination of resistance heat and friction heat combined to flex the stator out of plane and the subsequent overheating just ran away with itself. This is exactly the same situation I had, though at a smaller scale. I seem to love repeating other people's mistakes. I found that no particular phase of the stator was affected. The damage was concentrated in one quadrant of the circle. High current (approx 20A in 18 gauge wire) softened the stator, and once it got hot, it expanded to one side, rubbing the rotor, causing friction, producing more heat. The resistance of all phases has risen by 50%, so the wire was overheated, too.
Fortunately, I had a 3 HP motor-conversion just sitting around waiting to be used. It was a "winter project" last year, and last week I built the mount to get it on the tower. This motor-conversion has not undergone any testing (other than a little "cogging torque" test) so I don't really know anything about it. I re-used the 8-foot prop, which is probably a bit small. Tonight is the first serious amount of wind it's seen since being raised 2 days ago. It's furling in the 30 mph wind, turning at about 300 RPM, and producing up to 12 Amps. It's after dark, and this wind came up suddenly, so that's all the data I can get for now.
Last weekend I came across another 3-HP motor, this one a Baldor very similar to the one I'm currently flying, but much lighter, so if I choose to convert it, this may make a good "second generation" replacement. And, as I've already proven, it's good to have a backup!
My other discovery is a priceless array of VRLA batteries, apparently victim of age, not abuse, still with a charge in them! 1760 Amp-hours! I was just beside myself when I realized what I'd found. I was then confronted with the challenge of moving these behemoths! 450 pounds each - oof! Fortunately they were dumped 1/2 block from the building where I work. You should have seen me driving down the street in the shop's forklift. At a blistering 5 kph! They are now safe in the back of the warehouse waiting for me to figure out how to get them back home...
I estimate I have about 1 week before my little bank of Trojans is topped off by the new motor-conversion generator, and I'll need the new battery set...
Lastly, I've been trying to measure RPM with the "HZ" setting of my multi-meter. This has not been very successful, and the solution I was going to try for the axial generator became moot when the stator died. So now I'm back at square one with this new generator, and the problem may be even more intractable with this one. Say the mill is turning at 300 RPM. Since this is a 4-pole motor-conversion, the expected frequency is 100/60*4/2=10 Hertz. Not very high. The meter seems to be reading some harmonics, because it jumps between 10, then 20, then 15 Hz. Can this be "filtered"? Do others see this, too? Has anyone tried switching in some appropriately-size capacitors (or inductors) across the phases to clean that up? I have built in a switch that allows me to "dump" the current; I could also rig the switch to "filter" so that the filter circuit would only run momentarily while I take a speed reading.
If none of this works, I'm faced with wiring up a LM2907 tacho chip or hooking up a bike speedometer and running another wire down the tower. More complicated but I'm already committed to putting a temperature sensor on the generator, so what's one more little wire?
This is so much fun...
Steve
