Fast setting of the simulation calculation of a double rotor axial flux motor; Using Ansys software.
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- Опубликовано: 5 сен 2024
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Hi John,
why are u using a cylinder region for this model but a qiubic region for the other model ?
Based on my experience in evaluating the direction of this magnetic field, I know that setting the boundary range is already sufficient, which can also shorten the time for computer simulation analysis.
@@johnhsu5773 ok . why with both the qubic and cylinderical regions i am getting different torques for different region dimensions ?
Hello, is there any chance that you can custom your simulations (Axial-Flux and Reluctance) to specific motor sizes? More specifically we would like to see the axial-flux motor simulation to a size of 340mm diameter and 100mm thickness .....similar to YASA motor......also we want to see different reluctance motors (inrunner, outrunner, double rotor and double stator) that have the same motor mass and magnet mass as the YASA motor. I thin this will be very useful.....and I am happy to share the cost of that with you or if you want to do it just for us on a private basis we can pay for that.
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Thanks for the nice video! I followed the same as your video, but the torque is output as a negative value. What setting did I do wrong?
Did you set it for a constant speed simulation? You can configure it for a load torque.
@@johnhsu5773 Thank you for your kind reply. Can you explain why the value of moving torque is negative? Can I understand that the torque is generated in the opposite direction to the direction of rotation of the machine?
@@user-ue4uf2ee7b Are you simulating the rotor with a fixed speed? Imagine that there must be some force acting on the rotor of the motor to maintain a constant speed. The negative torque curve you see represents the force applied to the rotor.
It gives me a good insight. But please can I get a full clip with slow illustration
step
OK, I'll pay more attention, thanks for your suggestion.