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Design of an integrated starter-alternator for a series hybrid electric vehicle: A case study in axial flux permanent magnet machine design.

机译:串联混合动力汽车的集成式起动-交流发电机的设计:以轴向磁通量永磁电机设计为例。

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摘要

This thesis details the design of an electric machine to perform as both a starter and alternator in a series hybrid electric vehicle. The focus of the work is on practical design aspects specific to single-sided axial flux permanent magnet machines with non-overlapped windings. First, a characterization of the rotor losses in these machine types is presented through experimental validation of finite element analysis estimates. The approaches taken to model the axial flux geometry, especially in two-dimensions, are detailed, and the difficult issue of validating the finite element analysis estimates with experimental data is addressed with a prototype 24-slot, 20-pole single-sided machine fitted with single-layer non-overlapped windings. Next, the comparative advantages and disadvantages of the single-sided axial flux geometry and the most common form of radial flux structure, with an inside rotor, are explored within the context of surface mount permanent magnet machines. New material is offered which highlights the benefits of the single-sided axial flux geometry and the constraints and assumptions made when making the comparisons are discussed in detail, including a study of the biases these can introduce. The basis of comparison is founded on constant electromagnetic airgap shear stress, being the product of electric and magnetic loading, and indeed the constancy of both those factors. The metrics used for comparison are the mass of the active materials and the volume essential to house said materials. A range of lesser issues that are relevant when choosing a machine structure are presented and discussed. Finally, the performance criteria for the integrated starter-alternator are quantified based on characterization of the internal combustion engine and the energy storage system of the vehicle and a full account of the design process is detailed, including justification of all design choices.
机译:本文详细介绍了在混合动力电动汽车中既可以用作起动机又可以用作交流发电机的电机的设计。这项工作的重点是针对具有非重叠绕组的单面轴向磁通永磁电机的实用设计方面。首先,通过对有限元分析估计值的实验验证,对这些电机类型中的转子损耗进行了表征。详细介绍了用于建模轴向通量几何形状(尤其是在二维中)的方法,并通过安装了原型的24槽20极单面机床解决了用实验数据验证有限元分析估计的难题。具有单层非重叠绕组。接下来,在表面安装永磁电机的背景下,探讨了单侧轴向磁通几何形状和最常见形式的径向磁通结构(带有内部转子)的比较优势和劣势。提供了新材料,该材料突出了单面轴向通量几何形状的好处,并在进行比较时详细讨论了约束和假设,包括研究了这些误差可能带来的偏差。比较的基础是恒定的电磁气隙剪切应力,它是电和磁负载的乘积,实际上是这两个因素的恒定性。用于比较的度量是活性材料的质量和容纳所述材料所必需的体积。介绍并讨论了选择机器结构时相关的一系列较小的问题。最后,基于内燃机和车辆的储能系统的特性,对集成式起动-交流发电机的性能标准进行了量化,并详细介绍了设计过程,包括所有设计选择的合理性。

著录项

  • 作者

    Colton, Jessica.;

  • 作者单位

    The University of Nebraska - Lincoln.;

  • 授予单位 The University of Nebraska - Lincoln.;
  • 学科 Engineering Electronics and Electrical.;Transportation.
  • 学位 Ph.D.
  • 年度 2010
  • 页码 94 p.
  • 总页数 94
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

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