Tweet
A bit of fun.
Seems unbelievable, 10,000 watts @half a million rpm!
Seems unbelievable, 10,000 watts @half a million rpm!
-
Last edited by Quantum_well; 07-02-2019, 07:04 PM. -
Hi all, well there was a difference.
Killiwatt meter says:
With just the rotor = 1.54 amps, 138 watts
With core added = 1.59 amps, 144 watts
With core and magnet neutralizing = 1.59 amps, 144 watts.
Also, it is a 1/3 HP motor and the core to rotor magnet gap is 1/8".
Not sure what to make of it at the moment, will start on winding the coil now.
peace love light
Comment
-
Kool
Thanks Sky,Originally posted by SkyWatcher View PostHi all, well there was a difference.
Killiwatt meter says:
With just the rotor = 1.54 amps, 138 watts
With core added = 1.59 amps, 144 watts
With core and magnet neutralizing = 1.59 amps, 144 watts.
Also, it is a 1/3 HP motor and the core to rotor magnet gap is 1/8".
Not sure what to make of it at the moment, will start on winding the coil now.
peace love light
Only a 6 watt increase. Not a lot. The 138 watts is likely close to the no-load power of the drill press alone. That rotor is nicely finished and smooth so as not to have much aerodynamic drag at that RPM and you have no additional bearings or friction.
Good data points. The type of test you'd want to use to evaluate core material.
Talking about just a few percent difference in data points from a single set isn't really enough to draw conclusions. Turion can comment on the air gap. But it is good to record what it is for future reference.
Regards,
biComment
-
Hey Sky I am keeping this post. 1/3hp is good. My 1/3HP dryer motorsOriginally posted by SkyWatcher View PostHi all, well there was a difference.
Killiwatt meter says:
With just the rotor = 1.54 amps, 138 watts
With core added = 1.59 amps, 144 watts
With core and magnet neutralizing = 1.59 amps, 144 watts.
Also, it is a 1/3 HP motor and the core to rotor magnet gap is 1/8".
Not sure what to make of it at the moment, will start on winding the coil now.
peace love light
take 5.5amps running with a load of laundry in them. This is standard
1/3hp motor run load amps. The washers run 9.5amps and are induction
motors just like you have there and are called 1/2hp motors.
Do you see an inspection plate.
The opposing magnets puts into his rig are done with a CNC machine
are the holes are cut dead on plus all magnets are pressed in straight.
This is not as easy as you think to get the counterbalancing magnets
right on. I found if a slight angle on the opposition magnet (1 degree)
faces toward the other magnet as it approaches will slow it down.
Remember my slow moving wheel I built this winter? play with it by
changing it's angle and remember each magnet is different from the
next one slightly. In my mind I think to use a smaller dia magnet
that is LONG. This way you can SEE the angle and still get enough
flux.
Your amp draw shows the same thing as I found what too. Got work
to do on finding the right combinations of magnets and core sizes..
You are where I am.Comment
-
Some more data?
It'd be nice to see more data on your test. But let's say it was a 24V DC motor powering your generator. Then 0.7A at 24V is 16.8W. Or 5.6 watts per core. About same as Sky's result. No idea if RPM was close, or air gap. And assuming your coils had iron cores.Originally posted by Turion
You can generate data to develop a curve, say using RPM as the independent variable. And then do a family of curves for say, number of cores, or gap distance. When you have things like this plotted out it becomes much easier to see trends and make informed design decisions.
Regards,
biComment
-
You sure have a lot of versions, can't wait, hurry upOriginally posted by Turion
I had one question bugging me. Do you remember off hand the approx
amp draw on a 24vdc scooter motor just free wheeling, nothing connected.
Is it 2 amps? or less? Did you do any builds with a 24vdc scooter motor?Comment
-
Okay thanks, the video's I did were a 24vdc my1016 running that bigOriginally posted by Turion
10" steel wheel with 20 magnets and the table saw arbor 5/8" shaft
and bearings running off a power supply was 2 amps at 20vdc the rpm
was a little to slow.
I also got a 1.1 amp draw on my 24vdc motor at 14volts. I like these
tiny efficient motors. The dishwasher motor took 85vac at 2 amps big
difference but the rpm's were very high at over 3400 rpm's.
I was thinking of using a higher voltage scooter motor controller to bump
it up to 30vdc to get the extra rpm's.Comment
-
It doesn't really make much sense to me to add any neutralization... The magnet and core relation has an equal amount of force entering and leaving. As it enters it adds energy to the motion, as it's leaving it removes it - a balance. Adding the neutralization magnet you have the same situation - it has an equal amount of force to overcome as it enters the magnetic field as it does to be pushed away as it leaves - in both cases the net result is zero. This would explain the results of Sky's test.Originally posted by Turion
It seems overcoming the initial lock is the only problem where staggering the cores would reduce the torque required on the initial start up. Once it's up to speed and the coils are producing an output you have a different set of rules to contend with. The cogging caused by Lenz can also be reduced by phasing the coils ( single phase would cog or vibrate far more than a 3 phase coil arrangement ). For instance 4 magnets and 3 coils.
Using the monopole layout ( all south or all north facing ) you've reduced the load the rotor would see so it would appear to need less input to drive the arrangement. In reality the reduction in output is the reason it's much easier to drive the rotor. Not only because of the monopole but the reduced (open) magnetic path from the basic layout. It would probably benefit the unit to use ceramic8 magnets instead of the neo's. Neo's have an extremely powerful field but it's tight to the surface and requires close tolerances to utilize it's field to the fullest benifit or use them in a closed path where they would enhance the field in an air gap ( such as an air core axial flux alternator ). Ceramic magnets have a very large field - although much weaker - they have the ability to extend their field into the core much more evenly ( without over saturation). In quite a few circumstances the ceramics can out perform the neos - again it depends on how they're used.
It would be interesting to debate where and how the energy in excess of the original source is derived. This might have more value than numbers read from any meter.Last edited by dragon; 07-04-2019, 12:55 AM.Comment
-
I'm not criticizing what your attempting to do, simply clarifying the forces and their reactions as it applies to what your doing....Originally posted by Turion
Most of the "lock" is caused by the separated cores. Each core/magnet wants desperately to balance all unequal forces. The magnet in one direction or the other will always move toward the core to lock it in place -restoring a natural balance. As the cores become closer together the smaller these forces become. As with a normal motor or generator the cores have small slots for wires and these separations cause a magnetizing/demagnetizing effect as it passes over each separation - small but noticeable vibration and torque as it rotates. A magnetic field (rotor) in a closed iron circle will float freely with no cog, all forces between the magnet and core are in balance. ( it will experience eddy current forces as it rotates, these of course are different forces than what cause the cog effect ).
The reason I mentioned the ceramics is because they have the ability of reaching out to more than one core, thus reducing the effect. Since neo's have such a small external field they are more prone to grabbing what is closest and holding hard because of their intensity. ( a very small distance for the action/reaction to occur ). They will produce a higher output but at what cost to the overall efficiency of the unit...Last edited by dragon; 07-03-2019, 04:59 PM.Comment
-
Viewpoint
Hi Turion,Originally posted by Turion
Let's call that position the sticky point. And think of it as a position. Or a location. A point in space rather than a point in time. (Please leave space time discussion for another day, thank you)
At this sticky point, there is a force, correct? That force resists efforts to move from the sticky point either the core or the magnet. Work and therefore energy is defined as force applied for a distance, or simplified, force times distance. Since this force at the sticky point is only at a point, there is zero distance associated with it. So the force at the sticky point is there but only there and represents zero energy and therefore no power to move past.
Likely not many will buy this explanation, but there it is. I would like to see more of these types of tests. That is, measurements taken at various steps in the construction process.
Thanks to dragon for chiming in.
Regards,
biComment
-
Hi turion, I think it is because as you add more cores, yet you still have the same rotor mass, it cannot store enough rotational energy to efficiently absorb each attraction to the cores.
This then causes an imbalance and more amp draw.
The neutralization method relieves that and helps with start up amp draw, so is a good passive method.
Though if one did not want the added complexity and cost of the magnet neutralization, we could have a small starter motor and then an appropriate sized flywheel attahced to the shaft, to absorb the needed kinetic energy, to cause the perfect cancelling of magnet to core attraction.
peace love light
Comment
-
Originally posted by Turion
Exactly the right thinking, what about inertia, what about gravity, how
about momentum? You can't talk pull in and pull out = 0. These guys
are rambling, keep going Dave.
it's the same ole hat, the electrical freaks ONLY focus on charge and
the physics guys TALK about forces and each group thinks this stuff
exists in a world all buy itself when the project is submersed in all of
it, including what we can't explain and create cute little formula for.
You want TAKE TWO? Naw they don't want take two, just build it and
quite generalizing you sound helpless. Shouldn't work? And it does.Comment
-
Hi turion, proves theorizing is only worth so much, the bench is where it is at, thanks turion.
peace love light
Comment
-
Question
Just imagine how early record players worked with different speeds for different types of records.
The applied energies upon the wax/plastic allowed an analog storage of information that could crudely be used over and over until something broke.
One speed replaced the previous until tape became King and then CD format and now USB.
The record player is still in use for a reason.
Analog is best but a backup CD is nice.
Friction from air molecules?
What mix of neo magnet and what number of strength are they?
N52 is what is left on my repair work in progress.
When the core is glued into Woodstock the magnetic push/pull can be heard vibrating through the wood.
Energy Frequency Vibration.
The magnets reach to the bottom with their strength,
this causes a more efficient power use and your circuits run cold.Comment
-
Hey PotHead can you go over that again? On how you are able to
get your circuits to run cold? You say magnets do this?
I would be interested in the coil configuration and magnets.
Comment
Comment