A Novel Approach for the Modeling of Electromagnetic Forces in Air-Gap Shunt Reactors

IF 1.5 0 ENGINEERING, MULTIDISCIPLINARY
H. B. Duc, T. P. Minh, T. P. Anh, V. D. Quoc
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引用次数: 5

Abstract

Shunt reactors are usually used in electrical systems to imbibe reactive powers created by capacitive powers on the lines when the system is operating on low or no loads. Moreover, they are also used to balance reactive powers and maintain the stability of a specified voltage. In general, the air gaps of a magnetic circuit shunt reactor are arranged along the iron core to reduce the influence of fringing and leakage fluxes. Therefore, non-magnetic materials made of ceramics or marbles are often used in air gaps to separate the iron core packets. The direction of the fringing flux is perpendicular to the laminations, so the core packets of the shunt reactor are generally made from radially laminated silicon steels. Due to the alternating electromagnetic field through the core, a periodically altered electromagnetic force is produced between the core packets, tending to compress the ceramic spacers. This electromagnetic force causes vibration and noise in the core. In this research, a finite element approach based on the Maxwell stress tensor was developed to compute the magnetic flux density and the electromagnetic forces appearing in a shunt reactor.
一种新的气隙并联电抗器电磁力建模方法
并联电抗器通常用于电力系统中,在系统低负荷或空载运行时吸收线路上容性功率产生的无功功率。此外,它们还用于平衡无功功率和保持特定电压的稳定性。一般情况下,磁路并联电抗器的气隙沿铁芯布置,以减小边沿和漏磁的影响。因此,通常在气隙中使用陶瓷或大理石制成的非磁性材料来分隔铁芯包。由于边缘磁通的方向与片材垂直,因此并联电抗器的堆芯包一般由径向层压硅钢制成。由于通过磁芯的交变电磁场,在磁芯包之间产生周期性改变的电磁力,倾向于压缩陶瓷垫片。这种电磁力在磁芯中引起振动和噪音。本文提出了一种基于Maxwell应力张量的有限元方法来计算并联电抗器中的磁通密度和电磁力。
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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来源期刊
Engineering, Technology & Applied Science Research
Engineering, Technology & Applied Science Research ENGINEERING, MULTIDISCIPLINARY-
CiteScore
3.00
自引率
46.70%
发文量
222
审稿时长
11 weeks
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