25kv RIS套管的低温高压试验

2022 IEEE International Conference on High Voltage Engineering and Applications (ICHVE) Pub Date : 2022-09-25 DOI:10.1109/ICHVE53725.2022.9961329

S. Fink, R. Müller, V. Zwecker

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引用次数: 1

摘要

用于超导电力工程的高压套管暴露在低温应力下。对于这种应用，基于低吸湿性材料的干衬套是优选的。树脂浸渍合成(RIS)衬套比成熟的树脂浸渍纸(RIP)衬套吸湿性更小，并且几年来已经证明了它们在室温高压应用中的可用性。将传统的25kv, 2ka室温RIS套管组装到开放式低温恒温器中，并以液氮作为冷却剂进行5次热循环。在这些热循环过程中，在低温和室温条件下成功地进行了交流、直流和脉冲波形的高压试验。热机械应力作用后，衬套未发生退化。只有C2测试抽头测量的耗散系数与制造商的值有相关差异。本文主要研究了RIS衬套的高压试验。

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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Cryogenic high voltage testing of a 25 kV RIS bushing

High voltage bushings used for superconducting power engineering applications are exposed to cryogenic temperature stress. Dry bushings based on low hygroscopic materials are preferable for such an application. Resin impregnated synthetic (RIS) bushings are less hygroscopic than the well-established resin impregnated paper (RIP) bushings and have demonstrated their usability for room temperature high voltage application since few years. A conventional 25 kV, 2 kA room temperature RIS bushing was assembled to an open bath cryostat and subjected to five thermal cycles with liquid nitrogen as coolant. High voltage tests with AC, DC and impulse waveforms were successfully performed under cryogenic and room temperature conditions during these thermal cycles. No degradation of the bushing was found after the thermo-mechanical stress. Only the dissipation factor for the C2 test tap measurement showed a relevant difference to the manufacturer values. This paper focuses on the high voltage testing of the RIS bushing.

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2022 IEEE International Conference on High Voltage Engineering and Applications (ICHVE)

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