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风电变流技术
★ 5.0
考虑转子侧变换器谐波的双馈感应电机电磁力特性
Electromagnetic Force Characteristics of Doubly-Fed Induction Machines Considering Harmonics from Rotor-Side Converters
| 作者 | Chenbo Wang · Zhiqiang Wu · Chaofan Ren · Zhonglin An · Zhonghua Gui · Weifu Lu |
| 期刊 | IEEE Transactions on Industry Applications |
| 出版日期 | 2025年5月 |
| 技术分类 | 风电变流技术 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 双馈感应电机 电磁力特性 转子侧谐波 振动响应 解析模型 |
语言:
中文摘要
双馈感应电机(DFIMs)因其具有灵活调节的能力,在风力发电机和变速水电厂中得到了广泛应用。然而,转子侧变流器产生的高频谐波所引发的电磁振动,仍然对其在工业领域的应用构成挑战。本研究考虑转子侧变流器产生的谐波,对双馈感应电机的电磁力(EMF)特性进行了研究。在考虑开槽和饱和效应的情况下,提出了一种解析模型,用于分析谐波磁场及相关电磁力的特性,如空间阶次、频率和幅值。同时,还预测了这些电磁力对双馈感应电机振动的影响。采用有限元法(FEM)对一台30千瓦、6极双馈感应电机的谐波磁场和振动响应进行了分析。在不同运行工况下,对比了无转子侧脉宽调制(PWM)供电时的常规电磁力和由该供电引起的附加电磁力,以验证所提出的解析模型。分析表明,由于转子侧变流器产生的高频谐波,3900赫兹和8100赫兹的6阶径向电磁力显著增大,相应的振动增加了约10%。制作了一台30千瓦、6极双馈感应电机样机,并对其振动频谱进行了测试,所提出的解析模型预测结果与实测结果吻合良好。
English Abstract
Doubly-Fed Induction Machines (DFIMs) are widely used in wind turbines and variable-speed hydropower plants due to their ability of flexible adjustment, however, the electromagnetic vibrations caused by the high-frequency harmonics from the converter at the rotor side still challenge their applications in industry. This study investigates the electromagnetic force (EMF) characteristics of DFIM considering the harmonics from the rotor-side converters. With the slotting and saturation effects considered, an analytical model is proposed to analyze the characteristics of the harmonic fields and the related EMFs, such as the spatial order, frequency and magnitude. The influence of these EMFs on the vibration of DFIM is also predicted. The harmonic fields and the vibration responses are analyzed by Finite Element Method (FEM) for a 30-kW, 6-pole DFIM. The conventional EMFs without the rotor-side pulse width modulation (PWM) supply and the additional EMFs caused by this supply are compared under different operating conditions to validate the proposed analytical model. The analysis indicates that the radial EMF of the 6th order in 3900 Hz and 8100 Hz significantly increases and the corresponding vibration increases by about 10%, which is attributed to the high-frequency harmonics from the rotor-side converter. A prototype of the 30-kW, 6-pole DFIM is manufactured and tested for the vibration spectrums, and the results predicted by the proposed analytical model agree well with the measured results.
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SunView 深度解读
从阳光电源的业务视角来看,这项关于双馈感应电机电磁力特性的研究具有重要的技术参考价值。双馈电机广泛应用于风电和抽水蓄能领域,而阳光电源在风电变流器和储能系统领域均有深度布局,该研究揭示的转子侧变流器谐波引发的电磁振动问题,正是我们在实际工程中需要重点关注的技术痛点。
该研究的核心价值在于建立了考虑槽效应和饱和效应的解析模型,能够精确预测PWM变流器产生的高频谐波对电机振动的影响。研究发现6阶径向电磁力在3900Hz和8100Hz频段显著增强,导致振动增加约10%。这一发现对阳光电源的风电变流器和储能变流器设计具有直接指导意义。我们可以在变流器控制策略中针对性地优化PWM调制算法,通过谐波抑制技术降低特定频段的谐波注入,从而减轻电机振动,延长系统使用寿命。
从技术成熟度来看,该研究已完成30kW样机验证,解析模型与实测结果吻合良好,具备工程应用基础。对于阳光电源而言,技术机遇在于可将该模型集成到我们的变流器设计流程中,开发具有低振动、低噪声特性的差异化产品,特别是在对噪声敏感的分布式储能和海上风电应用场景。
技术挑战主要体现在如何在不显著增加开关损耗的前提下实现谐波优化,以及如何将该分析方法扩展到更大功率等级的兆瓦级产品。建议我们的研发团队深入研究先进调制策略与电磁设计的协同优化,将振动控制纳入变流器-电机一体化设计体系中。