氧气比例对C4F7N混合气体高压断路器开断性能的仿真分析与试验验证

QU Daolin; LIN Xin; GAO Keli; YAN Xianglian; WANG Wen; YAO Yao; XU Jianyuan

doi:10.13336/j.1003-6520.hve.20241909

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氧气比例对C4F7N混合气体高压断路器开断性能的仿真分析与试验验证

更新时间：2025-12-07

- 氧气比例对C4F7N混合气体高压断路器开断性能的仿真分析与试验验证
- Vol. 51, Issue 10, Pages: 5198-5207(2025)
- 作者机构：
  
  1. 沈阳工业大学电气工程学院,沈阳,110870
  2. 中国电力科学研究院有限公司,北京,100192
  3. 国网湖北省电力有限公司电力科学研究院,武汉,430077
- 作者简介：
- 基金信息：
- DOI：10.13336/j.1003-6520.hve.20241909
  CLC：
- Published：2025
- 稿件说明：
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QU Daolin, LIN Xin, GAO Keli, et al. 氧气比例对C4F7N混合气体高压断路器开断性能的仿真分析与试验验证[J]. 2025, 51(10): 5198-5207.
DOI：

QU Daolin, LIN Xin, GAO Keli, et al. 氧气比例对C4F7N混合气体高压断路器开断性能的仿真分析与试验验证[J]. 2025, 51(10): 5198-5207. DOI： 10.13336/j.1003-6520.hve.20241909.

摘要

全氟异丁腈(C4F7N)混合气体因出色的绝缘性能成为目前备受关注的SF6环保替代气体，但其熄弧能力较SF6存在差距，研究不同氧气(O2)比例下C4F7N混合气体熄弧性能对指导环保型开关设备研发具有重要意义。该文建立126 kV断路器灭弧室2维电弧磁流体动力学模型，计算0.6 MPa SF6、0.8 MPa下摩尔分数比为6% C4F7N/94% CO2、6% C4F7N/84% CO2/10%O2以及6% C4F7N/74% CO2/20% O2气体燃弧过程，比较不同O2比例下，C4F7N混合气体灭弧室内的电弧温度分布和气流变化规律。利用Mayr电弧模型，研究C4F7N混合气体中O2比例对断路器弧后热开断性能的影响。结果表明：C4F7N混合气体中O2比例的提高会增加混合气体电弧弧芯温度，缩小电弧半径，扩大电弧径向温度分布梯度，提升断路器喷口上游气压，加快轴向气吹速度。0.6 MPa SF6以及0.8 MPa O2比例分别为0%、10%和20%的C4F7N混合气体断路器开断25 kA短路电流的临界恢复电压上升率(recovery voltage rise rates

RRRV)分别为3.0、1.0、1.21和1.235 kV/μs。O2比例的增加提升了C4F7N混合气体断路器弧后热开断能力，20%O2占比的C4F7N混合气体的热开断能力达到了SF6的41.1%，相比6%C4F7N/CO2提高了7.8%。相关研究为推动环保型C4F7N混合气体高压开关设备发展提供了理论指导。

Abstract

Due to its superior insulating qualities

perfluoroisobutyronitrile (C4F7N) mixed gas is commonly recognized as an environmentally friendly alternative to SF6. However

in comparison to SF6

there is still a gap in arc interrupting ability. For the purpose of guiding the development of environmentally friendly switchgear

it is crucial to investigate the interrupting performance of C4F7N mixed gas under various oxygen (O2) ratios. In order to analyze the gas arc combustion process of 0.6 MPa SF6

0.8 MPa 6% C4F7N/CO2

6% C4F7N/CO2/10%O2

and 6% C4F7N/CO2/20% O2

we established a 2-D arc magnetohydrodynamic model for the extinguishing chamber of a 126 kV circuit breaker (CB)

and also compared the temperature distribution and airflow variation of the arc in the C4F7N mixed gas extinguishing chamber under various O2 ratios. The Mayr arc model was used to study the effect of O2 ratio in C4F7N mixed gas on the post-arc thermal interrupting performance of CB. The results show that an increase in the proportion of O2 in the C4F7N mixed gas will increase the temperature of the C4F7N mixed gas arc core

decrease the arc radius

expand the radial temperature distribution gradient of the arc

increase the upstream gas pressure of the CB nozzle

and accelerate the gas axial blowing speed. For interrupting 25 kA short-circuit currents

the critical recovery voltage rise rates (RRRV) of CB with 0.6 MPa SF6 and 0.8 MPa C4F7N mixed gas with O2 ratios of 0%

10%

and 20% are 3.0

1.0

1.21

and 1.235 kV/μs

respectively. The post arc thermal interrupting capacity of C4F7N mixed gas CB has increased with an increase in O2 proportion. At 20% O2 proportion

the thermal interrupting ability of C4F7N mixed gas reaches 41.1% of SF6

7.8% greater than that of 6% C4F7N/CO2. The relevant research provides theoretical guidance for promoting the development of environmentally friendly C4F7N mixed gas high-voltage switchgear.

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