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电动汽车驱动
★ 5.0
表贴式永磁同步电机分段转子铁心中的涡流损耗——一种新方法的提出
Eddy-Current Losses in Slitted Rotor Cores of PMSMs—Development of a Novel Method
| 作者 | Hüseyin Tayyer Canseven · Ilya Petrov · Iikka Martikainen · Juha Pyrhönen |
| 期刊 | IEEE Transactions on Energy Conversion |
| 出版日期 | 2024年10月 |
| 技术分类 | 电动汽车驱动 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 高速永磁同步电机 实心转子 涡流损耗 转子开槽 损耗计算方法 |
语言:
中文摘要
近年来,由于材料、制造工艺和高开关频率电力电子技术的进步,高速永磁同步电机(PMSM)受到了广泛关注。然而,高速永磁同步电机的设计和制造面临着诸如高离心力和热管理复杂等挑战。实心转子铁芯可用于解决这些问题,不过它可能存在较高的涡流损耗。转子表面开槽能够缓解这些挑战。在未开槽区域,端部效应可以忽略不计,但在开槽区域,必须考虑由狭窄区域内电流循环引起的显著端部效应。传统的涡流损耗计算方法对于此类设计并不适用。在本研究中,首先介绍了开槽的几何形状,并解释了为何传统有限元法(FEM)不足以计算此类转子的涡流损耗。随后,提出了一种快速可靠的方法来评估开槽实心转子的涡流损耗。分别对开槽和未开槽的转子缩比样机进行了实验测试,并将实验结果与二维和三维有限元计算结果进行了对比。在验证了所提方法的有效性后,将其应用于永磁同步电机的实心转子。比较了配备不同实心转子(开槽和未开槽)的永磁同步电机的转子损耗。
English Abstract
In recent years, high-speed PMSMs have gained popularity due to advancements in materials, manufacturing, and high-switching-frequency power electronics. However, the design and manufacturing of high-speed PMSMs presents challenges such as high centrifugal forces and complexities of thermal management. Solid rotor cores are used to address these issues, although they may suffer from high eddy-current losses. Slits on the rotor surface can mitigate these challenges. In the region without slits, the end effect is negligible, but in the slitted region, a significant end effect caused by current circulation in narrow areas must be considered. Traditional methods for calculating eddy-current losses are insufficient for such designs. In this study, firstly, the slit geometry is introduced, and it is explained why traditional FEM methods are insufficient to calculate eddy-current losses for such rotors. After that, a fast and reliable method for evaluating eddy-current losses in a slitted solid rotor is proposed. Experimental tests are carried out separately on scaled prototypes of the rotor with and without slits, and the results are compared with 2D and 3D FEM results. After the validation of the proposed method, it is used in the solid rotor of a PMSM. Rotor losses are compared in the PMSM equipped with different solid rotors, either with or without slits.
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SunView 深度解读
从阳光电源的业务视角来看,这项针对高速永磁同步电机(PMSM)开槽转子涡流损耗的研究具有重要的应用价值。随着我们在储能系统、光伏逆变器以及新能源车载解决方案中对高功率密度、高效率电机的需求日益增长,高速PMSM技术的突破直接关系到产品竞争力的提升。
该论文提出的开槽实心转子设计方法,能够在保证机械强度应对高离心力的同时,有效降低涡流损耗。这对我们的飞轮储能系统和高速电机驱动方案尤为关键。传统有限元方法在计算开槽区域的端部效应时存在局限性,而新方法通过考虑狭窄区域的电流循环效应,提供了更精确的损耗评估工具。这将帮助我们在产品设计阶段更准确地预测热管理需求,优化冷却系统设计,提高系统整体效率。
从技术成熟度看,该方法已通过实验验证,具备较高的工程应用可行性。对于阳光电源而言,潜在应用场景包括:储能变流器中的高速电机驱动、光储一体化系统的能量转换单元,以及氢能领域的高速压缩机电机。通过降低转子损耗2-3个百分点,可显著提升系统效率,延长设备寿命。
技术挑战主要集中在开槽工艺的制造精度控制和成本平衡上。建议我们与电机制造合作伙伴开展联合研发,将该技术整合到下一代高速电机平台中,特别是在大功率储能系统(1MW+)和工商业储能解决方案中优先验证应用,以巩固我们在高端新能源装备领域的技术领先地位。