Experiment of electrothermal stress for different types of end turn grading in the inverter-fed form-wound windings

IF 4.4 2区 工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC High Voltage Pub Date : 2024-05-22 DOI:10.1049/hve2.12449
Wenhuan Zhao, Peng Wang, Yingwei Zhu, Yue Zhang, Shuai Yang, Yan Liu, Yang Shi, Chaofan Yu
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Abstract

End turn grading with resistive–capacitive coupling experiences severe electrothermal stress when subjected to pulse width modulation (PWM) voltage. In this paper, several experiments and simulations were carried conducted for four types of end turn grading. First of all, the temperature rise in the end turn grading increased with a decrease in rise time. When the rise time was less than 500 ns, the temperature rise at the terminal was higher owing to the increased capacitive current coupled from the main wall insulation. Further, the current in the linear region exhibited minimal variation at different fundamental frequencies resulting in synchronized the temperature rise at the terminal and overlap. Furthermore, the jump voltage was the key factor influencing temperature rise in end turn grading, confirmed by comparing different voltage magnitudes. Finally, the transient behaviour of the maximum field in the stress grading material was determined at rise time. The experimental and simulation results indicate that balancing and interdependently addressing the electrical and thermal stress protection in end turn grading is crucial. The study aims to provide an experimental and theoretical foundation for an insulation system of inverter-fed rotating machinery operating under PWM voltage.

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变频器馈电形式绕组中不同类型端部匝数分级的电热应力实验
在脉宽调制(PWM)电压作用下,电阻-电容耦合的端面匝级会产生严重的电热应力。本文针对四种类型的端部转弯分级进行了多次实验和模拟。首先,随着上升时间的缩短,端部转弯分级的温升增加。当上升时间小于 500 ns 时,由于主壁绝缘耦合的电容电流增加,终端的温升较高。此外,线性区域的电流在不同基频下的变化极小,导致终端和重叠处的温升同步。此外,跃变电压是影响末端转弯分级温升的关键因素,这一点通过比较不同的电压幅度得到了证实。最后,确定了应力分级材料中最大电场在上升时的瞬态行为。实验和模拟结果表明,平衡并相互依存地解决端部转弯分级中的电应力和热应力保护问题至关重要。本研究旨在为在 PWM 电压下运行的变频器驱动旋转机械的绝缘系统提供实验和理论基础。
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来源期刊
High Voltage
High Voltage Energy-Energy Engineering and Power Technology
CiteScore
9.60
自引率
27.30%
发文量
97
审稿时长
21 weeks
期刊介绍: High Voltage aims to attract original research papers and review articles. The scope covers high-voltage power engineering and high voltage applications, including experimental, computational (including simulation and modelling) and theoretical studies, which include: Electrical Insulation ● Outdoor, indoor, solid, liquid and gas insulation ● Transient voltages and overvoltage protection ● Nano-dielectrics and new insulation materials ● Condition monitoring and maintenance Discharge and plasmas, pulsed power ● Electrical discharge, plasma generation and applications ● Interactions of plasma with surfaces ● Pulsed power science and technology High-field effects ● Computation, measurements of Intensive Electromagnetic Field ● Electromagnetic compatibility ● Biomedical effects ● Environmental effects and protection High Voltage Engineering ● Design problems, testing and measuring techniques ● Equipment development and asset management ● Smart Grid, live line working ● AC/DC power electronics ● UHV power transmission Special Issues. Call for papers: Interface Charging Phenomena for Dielectric Materials - https://digital-library.theiet.org/files/HVE_CFP_ICP.pdf Emerging Materials For High Voltage Applications - https://digital-library.theiet.org/files/HVE_CFP_EMHVA.pdf
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