Influence of Active Part Stiffness on Radiated Sound Power Level in Power Transformers

Volume 11: Acoustics, Vibration, and Phononics Pub Date : 2019-11-11 DOI:10.1115/imece2019-11513

C. Linhares, João S. Costa, R. Teixeira, C. Coutinho, S. Tavares, J. E. Santo, H. Mendes

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Abstract

Power transformers are associated with the radiation of unwanted noise in many circumstances due to its low frequency and relative high power, which reduction and mitigation is imperative. It is known that the main source of this noise are originated by the vibrations induced in the active part, namely the core, primarily due to electromagnetic forces and magnetomechanical effects. On the other hand, the laminated design of the core is indispensable in order to reduce the Foucault currents losses. Thus, in addition to the electrical requirements, the development of an appropriate model of the core dynamic behavior taking into account its segmented structure is urgent, in order to avoid resonances at any of the excitation frequencies. In the current proceeding, the influence of the core equivalent dynamic mechanical properties on a power transformer radiated noise was studied by performing a numerical parametric analysis. It was concluded that the active part stiffness properties, namely the directional component related to the out of lamination plane bending, ruled the vibroacoustic behavior of the transformer for the studied frequency range.

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电力变压器主动部件刚度对辐射声功率级的影响

由于电力变压器的低频和相对高功率，在许多情况下会产生不必要的噪音辐射，因此减少和缓解这些噪音是必不可少的。众所周知，这种噪声的主要来源是由于电磁力和磁机械效应在活动部分即磁芯中引起的振动。另一方面，为了减少福柯电流损耗，铁芯的分层设计是必不可少的。因此，除了电气要求外，考虑到其分段结构，迫切需要开发适当的核心动态行为模型，以避免在任何激励频率处发生共振。本文采用数值参数分析的方法，研究了铁芯等效动态力学性能对电力变压器辐射噪声的影响。结果表明，在研究的频率范围内，主动部件刚度特性，即与层外平面弯曲有关的方向分量，决定了变压器的振声特性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Volume 11: Acoustics, Vibration, and Phononics

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