用于再生制动的轴向磁通永磁发电机的初步试验研究

2019 International Conference on Sustainable Energy Engineering and Application (ICSEEA) Pub Date : 2019-10-01 DOI:10.1109/icseea47812.2019.8938636

S. Kaleg, A. Hapid, M. Anwar, F. Adriyanto, Muhammad Fajar Prakasa, S. Cahyono, K. Diharjo

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引用次数: 0

摘要

轴向磁通永磁发电机(AFPMG)常用于风力发电厂。AFPMG发电机结构允许安装大量永磁体，以提高低轴旋转时的效率。与同类径向结构发电机相比，功率与体积或质量之比相对较高。因此，轴向磁通永磁发电机可以用作车辆部件，例如再生制动。对轴向磁通永磁发电机样机的制造和性能进行了初步的实验研究。发电机由一个定子和两个永磁转子组成。定子由串联排列的线圈的4极组成，每个转子有32极的永磁体。电机与变速驱动器是用来旋转发电机轴。由几个电阻性负载组成的虚拟负载充当人工电负载。发电机的特点是获得电压、电流、功率和效率的值。表征结果表明，发电机在转速为700 rpm时的电压为13.07 Vdc(在实验中转速最高且无虚负载时达到)。最大输出电流为0.7 A，最大输出功率为3.96 W(700转/分转子轴旋转)。最高效率为35.90%，在2w的虚拟负载下，转速为700 rpm。

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A Preliminary Experimental Study on an Axial Flux Permanent Magnet Generator for Regenerative Braking

The axial flux permanent magnet generators (AFPMG) are often found in wind power plants. The AFPMG generator construction allows the installation of large quantities of permanent magnets to improve efficiency at low shaft rotation. The ratio between the power to volume or mass is relatively higher compared to similar generators with radial construction. Therefore, the axial flux permanent magnet generators can be used as a vehicle component, for example, the regenerative braking. A preliminary experimental study was carried out to manufacture and to characterize a prototype of axial flux permanent magnet generator. The generator consists of a stator and two permanent magnet rotors. The stator consists of 4 poles of the coil which are arranged in series and each rotor has 32 poles of the permanent magnet. An electric motor with a variable speed drive is used to rotate the generator shaft. A dummy load consisting of several resistive loads serves as an artificial electrical load. Generators are characterized to obtain values of voltage, current, power, and efficiency. The characterization results showed that the generator voltage at 700 rpm rotation was 13.07 Vdc (achieved at the highest rotation in the experiment and without dummy load). The highest output currents and electric powers are 0.7 A and 3.96 W, respectively (700 rpm rotor shaft rotation). The highest efficiency is 35.90% resulting in 700 rpm rotation with a dummy load of 2 W.

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2019 International Conference on Sustainable Energy Engineering and Application (ICSEEA)

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