Quasi 3D modeling of the magnetic forces in axial flux PM machines with rotor eccentricity

机译：轴流偏心轴通芯筒PM机磁力的准数据型磁力

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In this paper, an analytical quasi 3D analysis is used to model unbalanced magnetic forces in an axial flux permanent magnet machine (AFPMM) under static eccentricity (SE) condition. Accurate modeling of the magnetic forces in AFPMMs requires three-dimensional (3D) finite element method (FEM). However, 3D FEM is generally too time consuming. Quasi 3D modeling method gives the ability to reduce the time and size of computations by transforming 3D geometry of an AFPMM to several 2D models. Using quasi 3D modeling, the air-gap length, magnetic flux density and magnetic forces are modeled under SE by analytical equations. The results given by proposed method is compared to 3D FEM results and it is shown that this results are accurate enough to evaluate magnetic forces. Moreover, using this method is significantly less time consuming process than 3D FEM simulation process.

机译：本文在静电（SE）条件下，使用分析准三维分析在静电偏心（SE）条件下模拟轴向磁通永磁机（AFPMM）中的不平衡磁力。 AFPMMS中磁力的精确建模需要三维（3D）有限元方法（FEM）。然而，3D FEM通常太耗时。准基本模型方法通过将AFPMM的3D几何形状转换为几个2D模型来减少计算的时间和大小。通过分析方程，使用准三维建模，气隙长度，磁通密度和磁力在SE下进行建模。通过提出方法给出的结果与3D FEM结果进行比较，结果表明该结果足以评估磁力。此外，使用该方法比3D FEM仿真过程显着较少耗时的过程。

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《Iranian Conference on Electrical Engineering》|2014年||共4页
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Rahimi Azar; Abbaszadeh Karim;
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中图分类电机;
关键词
finite element analysis; magnetic forces; permanent magnet machines; rotors; FEM; air-gap length; analytical quasi 3D analysis; axial flux PM machines; axial flux permanent magnet machine; finite element method; magnetic flux density; rotor eccentricity; static eccentricity; unbalanced magnetic forces; Air gaps; Computational modeling; Finite element analysis; Force; Magnetic flux; Rotors; Three-dimensional displays; Axial Flux Permanent Magnet Machine; Quasi 3D Calculation; Static eccentricity; Unbalanced Magnetic Force;

机译：有限元分析;磁力;永磁机;转子;空气间隙长度;分析准三维分析;轴向磁通PM机器;轴向磁通永磁机;有限元法;磁通密度;转子偏心;不平衡的磁力;空气隙;计算建模;有限元分析;力;磁通;转子;三维显示器;轴向磁通永磁机;准3D计算;静态偏心;静态偏心;不平衡磁力;

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专利

1. Magnet Defect and Rotor Eccentricity Modeling in Axial-Flux Permanent-Magnet Machines via 3-D Field Reconstruction Method [J] . Ehsan Ajily, Mohammad Ardebili, Karim Abbaszadeh IEEE Transactions on Energy Conversion . 2016,第2期

机译：基于3-D场重构方法的轴向磁通永磁电机的磁缺陷和转子偏心建模
2. Rotor Unbalanced Magnetic Force in Flux-switching Permanent Magnet Machines Due to Static and Dynamic Eccentricity [J] . Silong Li, Yingjie Li, Bulent Sarlioglu Electric Power Components and Systems . 2016,第1a5期

机译：静态和动态偏心量导致永磁开关磁通转子中的不平衡磁力
3. Research on a novel axial-flux magnetic-field-modulated brushless double-rotor machine with low axial force and high efficiency [J] . Chengde Tong, Zhiyi Song, Jingang Bai, AIP Advances . 2017,第5期

机译：一种新型的轴向力低，效率高的轴向磁通磁场调制无刷双转子电机的研究
4. Quasi 3D modeling of the magnetic forces in axial flux PM machines with rotor eccentricity [C] . Rahimi Azar, Abbaszadeh Karim Iranian Conference on Electrical Engineering . 2014

机译：转子偏心的轴向磁通永磁电机中磁力的准3D建模
5. Fea estimation and experimental validation of solid rotor and magnet eddy current loss in single-sided axial flux permanent magnet machines. [D] . Yang, Xu. 2013

机译：单面轴向磁通永磁电机中固体转子和磁体涡流损耗的有限元估计和实验验证。
6. 3D-Printed Detector Band for Magnetic Off-Plane Flux Measurements in Laminated Machine Cores [O] . Georgi Shilyashki, Helmut Pfützner, Martin Palkovits, 2017

机译：3D打印检测器带用于层压机芯中的磁离面通量测量
7. Research on a novel axial-flux magnetic-field-modulated brushless double-rotor machine with low axial force and high efficiency [O] . Chengde Tong, Zhiyi Song, Jingang Bai, 2017

机译：一种轴向力小，效率低的新型轴向磁场调制无刷双转子电机的研究

Quasi 3D modeling of the magnetic forces in axial flux PM machines with rotor eccentricity

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