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为解决高频大功率电抗器声学包电磁噪声过大这一共性问题,以某地铁能馈装置电抗器声学包为研究对象,对其振动噪声进行了系统试验;结合仿真对电抗器声学包振动噪声源和传递路径特性进行了详细的分析。结果表明:电抗器铁心磁致伸缩导致的高频结构振动辐射噪声是声学包的主要声源;电抗器柜百叶窗为主要的声传播路径,其声能比重高达80.14%。最后根据电抗器声学包的声源特性和声传播特性,制定了针对性的吸隔声优化方案,其综合降噪效果达8 dB(A)以上。研究结果对明晰高频电抗器振动噪声特性和电抗器柜声学包的优化设计有借鉴意义。 相似文献
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The graphite oxide(GO) was prepared based on the modified Hummers method, then reacted with zinc acetate aqueous, sodium hydroxide aqueous and hydrazine hydrate, and was doped into ZnO eventually to form graphene doped ZnO, an alternative transparent conducting oxide(TCO) for solar cell applications. The samples were characterized by Raman spectrometer, X-ray diffractometer, Fourier transform infrared spectroscopy and scanning electron microscope, and compared with widely used aluminum doped ZnO(AZO) in resistivity and transmissivity. The results show that the transmissivity of graphene doped ZnO reaches the same level as that of AZO in visible light band. In ultraviolet light wave band, the transmissivity of graphene doped ZnO reaches as high as 50%, exceeding that of AZO which is only 20%. The resistivity of optimized graphene doped ZnO is1.03 × 10-5Ω· m, approaching AZO resistivity which is about 10-4—10-6Ω· m. As a result, graphene doped ZnO may have potential applications in the area of TCO due to its low cost and high performance. 相似文献
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