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Article(id=1199644783779086641, tenantId=1146029695717560320, journalId=1149653034449285133, issueId=1199644777219191267, articleNumber=null, orderNo=null, doi=10.16790/j.cnki.1009-9239.im.2023.12.017, pmid=null, cstr=null, oa=null, hot=null, price=null, onlineType=0, articleFormat=0, articleType=null, articleTypeStr=research-article, receivedDate=1690732800000, receivedDateStr=2023-07-31, revisedDate=1695571200000, revisedDateStr=2023-09-25, acceptedDate=null, acceptedDateStr=null, onlineDate=1763947204775, onlineDateStr=2025-11-24, pubDate=1703001600000, pubDateStr=2023-12-20, doiRegisterDate=null, doiRegisterDateStr=null, onlineIssueDate=1763947204775, onlineIssueDateStr=2025-11-24, onlineJustAcceptDate=null, onlineJustAcceptDateStr=null, onlineFirstDate=null, onlineFirstDateStr=null, sourceXml=null, magXml=null, createTime=1763947204775, creator=13701087609, updateTime=1763947204775, updator=13701087609, issue=Issue{id=1199644777219191267, tenantId=1146029695717560320, journalId=1149653034449285133, year='2023', volume='56', issue='12', pageStart='1', pageEnd='135', issueExtLink='null', onlineDate='null', pubDate='null', beforeIssueId=null, nextIssueId=null, price=null, status=1, issueComplete=1, articleOrder=1, issueType=-1, specialIssue=null, createTime=1763947203211, creator=13701087609, updateTime=1766563728010, updator=13701087609, preIssue=null, nextIssue=null, ext={EN=IssueExt(id=1210619277716099586, tenantId=1146029695717560320, journalId=1149653034449285133, issueId=1199644777219191267, language=EN, specialIssueTitle=, coverIllustrator=null, specialIssueEditor=, specialIssueAbout=), CN=IssueExt(id=1210619277716099587, tenantId=1146029695717560320, journalId=1149653034449285133, issueId=1199644777219191267, language=CN, specialIssueTitle=, coverIllustrator=null, specialIssueEditor=, specialIssueAbout=)}, issueFiles=null}, startPage=128, endPage=135, ext={EN=ArticleExt(id=1199644784102048059, articleId=1199644783779086641, tenantId=1146029695717560320, journalId=1149653034449285133, language=EN, title=Power frequency breakdown characteristics of CF3SO2F mixtures under non-uniform electric field, columnId=1199644778280350182, journalTitle=Insulating Materials, columnName=Advanced Electrical Materials for Large Capacity Offshore Wind Power Transmission, runingTitle=null, highlight=null, articleAbstract=

The power frequency breakdown voltages of a new eco-friendly insulation CF3SO2F/N2 and CF3SO2F/CO2 mixtures were measured under sphere-sphere and needle-plate electrodes. The effects of pressure, electrode spacing, and electric field non-uniformity on the power frequency breakdown characteristics of the CF3SO2F mixtures were analyzed and compared with SF6. The results show that under slightly non-uniform electric field, the power frequency breakdown voltage of CF3SO2F mixtures is linearly related to pressure, and the breakdown voltage show weak saturation trend with the increase of electrode spacing. Under extremely non-uniform electric field, the power frequency breakdown voltages of CF3SO2Fmixtures exhibits "hump" curves of "rising-falling-rising" as the pressure increases, and the corresponding pressure of "hump" peak is between 0.2 MPa and 0.35 MPa. The overall power frequency breakdown strength of the CF3SO2F/N2 mixture is greater than that of the CF3SO2F/CO2 mixture. At 0.3 MPa and above, CF3SO2F/N2 mixtures can maintain a highly insulation level relative to SF6 under extremely non-uniform electric fields, which has good application potential.

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在球-球和尖-板电极下测量了新型环保绝缘混合气体CF3SO2F/N2和CF3SO2F/CO2的工频击穿电压,分析了气压、电极间距和电场不均匀度等因素对混合气体工频击穿特性的影响,并与SF6进行了对比。结果表明:稍不均匀电场下CF3SO2F混合气体的工频击穿电压与气压为正向线性关系,随间距增长击穿电压出现微弱的饱和趋势。极不均匀电场下CF3SO2F混合气体的工频击穿电压随气压变化呈现“上升-下降-上升”的“驼峰”曲线,“驼峰”峰值对应的气压值在0.2~0.35 MPa之间。其中CF3SO2F/N2混合气体的工频击穿电压整体大于CF3SO2F/CO2混合气体。在0.3 MPa及以上,CF3SO2F/N2混合气体在极不均匀电场下仍可保持较高的相对SF6绝缘水平,具备良好的应用潜力。

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胡世卓(1994-),女(汉族),广西贵港人,助理研究员,博士,主要从事环保型SF6替代气体、气体绝缘评估模型及机理研究。

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胡世卓(1994-),女(汉族),广西贵港人,助理研究员,博士,主要从事环保型SF6替代气体、气体绝缘评估模型及机理研究。

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胡世卓(1994-),女(汉族),广西贵港人,助理研究员,博士,主要从事环保型SF6替代气体、气体绝缘评估模型及机理研究。

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不均匀电场下CF3SO2F混合气体的工频击穿特性
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胡世卓 1, 2 , 周文俊 2 , 罗赟 1 , 黄宇婧 1 , 邱睿 2
绝缘材料 | 面向大容量海上风电送出的先进电工材料 2023,56(12): 128-135
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绝缘材料 | 面向大容量海上风电送出的先进电工材料 2023, 56(12): 128-135
不均匀电场下CF3SO2F混合气体的工频击穿特性
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胡世卓1, 2, 周文俊2, 罗赟1, 黄宇婧1, 邱睿2
作者信息
  • 1南宁职业技术学院 智能制造学院,广西 南宁 530008
  • 2武汉大学 电气与自动化学院,湖北 武汉 430072

    • 胡世卓(1994-),女(汉族),广西贵港人,助理研究员,博士,主要从事环保型SF6替代气体、气体绝缘评估模型及机理研究。

Power frequency breakdown characteristics of CF3SO2F mixtures under non-uniform electric field
Shizhuo HU1, 2, Wenjun ZHOU2, Yun LUO1, Yujing HUANG1, Rui QIU2
Affiliations
  • 1School of Intelligent Manufacturing, Nanning College for Vocational Technology, Nanning 530008, China
  • 2School of Electrical Engineering and Automation, Wuhan University, Wuhan 430072, China
出版时间: 2023-12-20 doi: 10.16790/j.cnki.1009-9239.im.2023.12.017
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在球-球和尖-板电极下测量了新型环保绝缘混合气体CF3SO2F/N2和CF3SO2F/CO2的工频击穿电压,分析了气压、电极间距和电场不均匀度等因素对混合气体工频击穿特性的影响,并与SF6进行了对比。结果表明:稍不均匀电场下CF3SO2F混合气体的工频击穿电压与气压为正向线性关系,随间距增长击穿电压出现微弱的饱和趋势。极不均匀电场下CF3SO2F混合气体的工频击穿电压随气压变化呈现“上升-下降-上升”的“驼峰”曲线,“驼峰”峰值对应的气压值在0.2~0.35 MPa之间。其中CF3SO2F/N2混合气体的工频击穿电压整体大于CF3SO2F/CO2混合气体。在0.3 MPa及以上,CF3SO2F/N2混合气体在极不均匀电场下仍可保持较高的相对SF6绝缘水平,具备良好的应用潜力。

CF3SO2F混合气体  /  不均匀电场  /  击穿特性  /  “驼峰”现象

The power frequency breakdown voltages of a new eco-friendly insulation CF3SO2F/N2 and CF3SO2F/CO2 mixtures were measured under sphere-sphere and needle-plate electrodes. The effects of pressure, electrode spacing, and electric field non-uniformity on the power frequency breakdown characteristics of the CF3SO2F mixtures were analyzed and compared with SF6. The results show that under slightly non-uniform electric field, the power frequency breakdown voltage of CF3SO2F mixtures is linearly related to pressure, and the breakdown voltage show weak saturation trend with the increase of electrode spacing. Under extremely non-uniform electric field, the power frequency breakdown voltages of CF3SO2Fmixtures exhibits "hump" curves of "rising-falling-rising" as the pressure increases, and the corresponding pressure of "hump" peak is between 0.2 MPa and 0.35 MPa. The overall power frequency breakdown strength of the CF3SO2F/N2 mixture is greater than that of the CF3SO2F/CO2 mixture. At 0.3 MPa and above, CF3SO2F/N2 mixtures can maintain a highly insulation level relative to SF6 under extremely non-uniform electric fields, which has good application potential.

CF3SO2F mixtures  /  non-uniform electric field  /  breakdown characteristics  /  "hump" phenomenon
胡世卓, 周文俊, 罗赟, 黄宇婧, 邱睿. 不均匀电场下CF3SO2F混合气体的工频击穿特性. 绝缘材料, 2023 , 56 (12) : 128 -135 . DOI: 10.16790/j.cnki.1009-9239.im.2023.12.017
Shizhuo HU, Wenjun ZHOU, Yun LUO, Yujing HUANG, Rui QIU. Power frequency breakdown characteristics of CF3SO2F mixtures under non-uniform electric field[J]. Insulating Materials, 2023 , 56 (12) : 128 -135 . DOI: 10.16790/j.cnki.1009-9239.im.2023.12.017
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0 引言
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SF6具有良好的绝缘、灭弧特性,在气体绝缘电气设备中得到了大规模应用。但SF6的全球变暖潜能值(global warming potential,GWP)为24 600[1],是已知GWP值最高的气体。为践行绿色低碳发展和助力实现“双碳”目标,亟需研发新环保绝缘气体[2-4],逐步减少使用、取代电气设备中的SF6,直至实现SF6零应用。
三氟甲基磺酰氟(CF3SO2F)是具有应用前景的潜在SF6替代气体,国内外学者对CF3SO2F及其混合气体的特性已开展了部分研究。早在1980年代,就有少量关于CF3SO2F气体介电性能试验研究和液化温度的报道。A W BAUER等[5]和R E WOOTON等[6]的研究结果显示,CF3SO2F的绝缘强度是SF6的1.41~1.49倍,而且在CCl2中添加相同含量的CF3SO2F和CF3NO2时,CF3SO2F抑制碳元素生成的效果更好[7]。YU X J等[8]建立了单一气体的绝缘强度构效关系模型,通过杂化方法设计了一系列绝缘强度高于或与SF6相当且液化温度和GWP均较低的分子结构,提出沸点为-22℃、GWP预测值为3 678的CF3SO2F具备应用潜力。WANG Y等[9]在实验室合成了CF3SO2F气体并开展了工频击穿试验,研究发现纯CF3SO2F气体在均匀电场下的工频击穿电压为SF6的1.38倍。ZHANG L等[10]对CF3SO2F气体进行4 h急性吸入毒性测试,结果表明CF3SO2F的半致死浓度(LC50)值为3 400~4 000 mg/m3,属低毒气体,在暴露程度较高的场合需要使用自吸过滤式全面罩防毒面具,但CF3SO2F占比小于68%时,其与N2、CO2等的混合气体属无毒气体[11]。LONG Y X等[12]通过稳态汤逊实验获得了CF3SO2F的放电参数,结果表明CF3SO2F的临界击穿场强约为SF6的1.6倍。HU S Z等[13]在稍不均匀电场下研究了CF3SO2F混合气体的工频击穿特性,指出40%CF3SO2F/60%N2和45%CF3SO2F/55%CO2混合气体的工频击穿电压与SF6相当,CF3SO2F/N2混合气体的协同效应更显著。郑宇等[14]采用稳态汤逊法分别测量了CF3SO2F占比为10%、20%、30%、40%、100%CF3SO2F/N2混合气体的有效电离系数,研究发现40%CF3SO2F/60%N2混合气体的临界约化场强约为SF6的1.01倍。除低气压下的电离特性外,他们还研究了CF3SO2F/N2混合气体分别与3A、4A、5A、13X分子筛和活性氧化铝等5种常用吸附剂的相容性,结果表明CF3SO2F/N2混合气体与上述5种吸附剂不发生化学反应、不产生吸附,相容性良好[15]。万旭昊等[16]研究了CF3SO2F与铜、氧化铜、氧化铝和环氧树脂等常见电工设备表面的气固相容特性,计算模拟和实验结果显示,CF3SO2F气体与金属铝表面的相容性较差,与其他电工设备表面的相容性良好。
综上所述,研究人员从不同方面评估了CF3SO2F及其混合气体的特性,取得了不少成果。但目前仍未有CF3SO2F混合气体在极不均匀电场下击穿特性的报道,而电力设备在制造、运输、安装以及运行过程中,难以避免尖端、毛刺和导电微粒等的产生,此时局部电场将发生畸变,形成极不均匀电场。新型CF3SO2F混合气体在缺陷条件下是否会造成绝缘水平的大幅下降,需要通过试验进一步确认。因此本文用尖-板电极模拟电气设备中可能出现的局部电场集中的场景,研究CF3SO2F/N2和CF3SO2F/CO2混合气体在极不均匀电场下的工频击穿特性,并与稍不均匀电场下的放电特性进行对比,研究结果可为CF3SO2F混合气体的工程配置与应用提供参考。
1 气体间隙工频击穿试验研究平台与方法
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1.1 工频击穿试验平台
气体间隙工频击穿试验回路如图1所示。其中无局放试验变压器额定容量为10 kVA,额定输入电压为220 V,最高输出电压为100 kV,保护电阻为50 kΩ,C1C2分压比为1 000∶1。
试验腔体如图2所示。腔体设计最高充气压力为0.5 MPa。采用螺旋测微仪进行电极间距调节,调节精度为±0.01 mm。高、低压电极均为非固定结构,可拆卸更换。试验电极材料为钨铜合金,所用尖电极和球电极尺寸参数如图3所示。电场不均匀度由有限元仿真获得,当尖-板电极间距分别为 5 mm、10 mm时,电场不均匀度f分别为11.2、18.4,属极不均匀电场;当球-球电极间距分别为2.5、5、7.5、10 mm时,电场不均匀度f分别为1.21、1.30、1.36、1.46,属稍不均匀电场。
1.2 试验预处理与试验方法
试验前准备及充配气和静置:采用5 000目砂纸对电极表面进行处理,打磨完成后,用无水酒精对电极进行擦拭、清洁,然后将电极安装到腔体上,同时避免对电极及腔体造成二次污染。试验腔体、电极置于无尘、干燥环境下自然风干后,进行正、负压气密性检查验证。对气密性合格的放电腔体进行3次洗气处理,然后采用道尔顿分压定律配置CF3SO2F混合气体,为了确保任一比例混合气体都混合均匀,充配气完成后静置3 h。
试验方法与流程:气体间隙的工频击穿试验按照GB/T 16927.1—2011“附录A.1.3 第三类 连续放电试验”方法[17]开展。采用快速升压法进行5次击穿试验,取5组有效数据的算术平均值作为工频击穿电压(本试验获得的击穿电压值均为有效值)。为确保气隙击穿后绝缘强度得到充分恢复,两次击穿间隔5 min。
2 试验结果与分析
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2.1 稍不均匀电场下CF3SO2F混合气体的工频击穿特性
2.1.1 气压的影响
稍不均匀电场下CF3SO2F/N2、CF3SO2F/CO2混合气体及SF6的工频击穿电压与气压的关系如图4所示,其中k为CF3SO2F在混合气体中的占比。从图4可以看出,CF3SO2F/N2和CF3SO2F/CO2混合气体的工频击穿电压均随气压增大呈线性增大,CF3SO2F/N2混合气体工频击穿电压的上升率高于CF3SO2F/CO2混合气体。在0.10~0.40 MPa范围内,向N2中加入5%的CF3SO2F后,混合气体的工频击穿电压相对于N2的提升量为42%~70%,相对于CO2的提升量为39%~69%。相比于CF3SO2F/CO2混合气体,CF3SO2F/N2各比例混合气体的工频击穿电压曲线较“密集”,差异较小,即在较低的CF3SO2F占比下也可以获得较高的绝缘强度,相同CF3SO2F占比下CF3SO2F/N2混合气体的绝缘强度优于CF3SO2F/CO2混合气体。
2.1.2 间距的影响
0.1 MPa下CF3SO2F/N2、CF3SO2F/CO2混合气体及SF6的击穿电压与间距的关系如图5所示。
图5可以看出,CF3SO2F/N2、CF3SO2F/CO2混合气体和SF6的工频击穿电压随间距增大均出现了微弱的饱和现象,即击穿电压偏离了巴申曲线。CF3SO2F占比越高,则CF3SO2F混合气体的击穿电压饱和趋势越明显。若要求绝缘强度与SF6相当,则CF3SO2F/N2混合气体中CF3SO2F的占比在30%~40%;对于CF3SO2F/CO2混合气体,CF3SO2F占比则需要提高到40%左右。
2.2 极不均匀电场下CF3SO2F混合气体的工频击穿特性
2.2.1 气压的影响
CF3SO2F的占比分别为30%、50%时CF3SO2F/N2和CF3SO2F/CO2混合气体及SF6在尖-板电极下的工频击穿电压与气压的关系如图6所示。从图6可以看出,随气压升高,CF3SO2F/N2、CF3SO2F/CO2混合气体及SF6在极不均匀电场下的工频击穿电压都呈现出“上升-下降-上升”的变化规律,因类似单驼峰,被称为“驼峰”曲线。早在1983年,就已经有学者发现了SF6的雷电冲击放电电压呈“驼峰”现象,并归因于空间电荷的稳定化作用[18]
CF3SO2F/N2混合气体的“驼峰”曲线极大值对应的气压范围在0.25~0.35 MPa;CF3SO2F/CO2混合气体的极大值对应的气压范围稍宽,为0.20~0.35 MPa;而SF6的极大值对应的气压范围为0.20~0.25 MPa。CF3SO2F混合气体的极小值在0.40 MPa及以上;SF6的极小值在0.35~0.40 MPa。
对于CF3SO2F混合气体,当CF3SO2F占比增加时,“驼峰”峰值呈左移趋势。在“驼峰”曲线极值点的左侧区域,CF3SO2F占比越大则绝缘强度越高,符合一般规律;但在“驼峰”曲线极值点右侧,因不同比例CF3SO2F混合气体极大值点对应的气压不完全相同,这一现象可能发生反转,即CF3SO2F占比低反而击穿电压更高,表明试验条件的变化会显著影响气体的击穿特性。
图4可知,在稍不均匀电场中,CF3SO2F占比为50%的混合气体绝缘强度已与SF6相当或者优于SF6。但图6中极不均匀电场下的试验结果显示,在0.1~0.3 MPa范围内,50%CF3SO2F混合气体的击穿电压与SF6有较大差距,即电场不均匀度增大时,CF3SO2F混合气体击穿电压的下降幅度大于SF6
此外,在试验时发现,因极不均匀电场下气体间隙的击穿电压存在“驼峰”特性,为获得较为准确的击穿电压曲线,应增加在极大值、极小值附近的试验气压点数,不宜继续采用较大间隔的等距气压点进行试验。
2.2.2 间距和混合比例的影响
图7对比了不同间距和混合比例下CF3SO2F/N2和CF3SO2F/CO2混合气体的工频击穿电压“驼峰”特性。从图7可以看出,当间隙距离从5 mm增大到10 mm时,CF3SO2F混合气体和SF6的“驼峰”区域面积均增大,且SF6的变化范围较为明显。此外,随间距增大,CF3SO2F混合气体和SF6的“驼峰”峰值也呈现出左移趋势。当CF3SO2F在混合气体中的占比由30%增加至50%时,“驼峰”峰值左侧对CF3SO2F混合气体绝缘强度的提升效果大于“驼峰”峰值右侧。
当气压大于0.3 MPa(“驼峰”峰值右侧)且间距为5 mm时,CF3SO2F混合气体的工频击穿电压与SF6相当;间距为10 mm时,CF3SO2F混合气体的工频击穿电压均大于SF6。表明电场不均匀度增加时,较高气压下的CF3SO2F混合气体具有较好的绝缘性能。
2.2.3 间距和缓冲气体类型的影响
进一步分析缓冲气体类型对CF3SO2F混合气体工频击穿特性的影响,结果如图8所示。从图8可以看出,在相同的混合比例和间距下,CF3SO2F/N2混合气体的工频击穿电压“驼峰”峰值及其对应气压均大于CF3SO2F/CO2混合气体。在0.1~0.2 MPa范围内,不同CF3SO2F占比下的混合气体工频击穿电压基本一致;随气压继续增大,CF3SO2F/CO2混合气体先达到“驼峰”峰值,然后击穿电压开始下降并低于CF3SO2F/N2混合气体;当气压继续上升,CF3SO2F/N2混合气体的击穿电压达到峰值点后开始下降;当气压大于CF3SO2F/CO2混合气体击穿电压极小值点对应的气压后,CF3SO2F/CO2混合气体的工频击穿电压曲线率先上拐,并有可能大于CF3SO2F/N2混合气体的工频击穿电压。但CF3SO2F/N2的工频击穿电压曲线积分大于CF3SO2F/CO2,可认为CF3SO2F/N2混合气体的工频绝缘表现总体优于CF3SO2F/CO2混合气体。
2.3 与SF6的对比
2.3.1 稍不均匀电场下相对SF6的绝缘强度
在球-球电极下,CF3SO2F/N2和CF3SO2F/CO2混合气体的工频击穿电压与SF6的工频击穿电压之比称为相对于SF6的绝缘强度,如图9所示。从图9可以看出,50%CF3SO2F混合气体的绝缘强度优于相同压力下的SF6。在0.1~0.4 MPa范围内,CF3SO2F占比为5%~50%的CF3SO2F/N2和CF3SO2F/CO2混合气体相对于SF6的绝缘强度随气压变化时波动不大,表明CF3SO2F混合气体随气压变化的工频击穿特性与SF6相似。CF3SO2F占比为30%、50%的CF3SO2F/N2混合气体相对于SF6的绝缘强度平均值分别为0.89和1.06,而CF3SO2F占比为30%、50%的CF3SO2F/CO2混合气体相对于SF6的绝缘强度平均值分别为0.84和1.03。表明CF3SO2F/N2混合气体的工频击穿电压高于CF3SO2F/CO2混合气体,为优选混合气体。
2.3.2 极不均匀电场下相对SF6的绝缘强度
在尖-板电极下,CF3SO2F/N2和CF3SO2F/CO2混合气体相对于SF6的绝缘强度如图10所示。从图10可以看出,在0.1~0.3 MPa范围内,两种CF3SO2F混合气体相对于SF6的绝缘强度均低于稍不均匀电场。但当气压大于0.3 MPa时,30%、50%的CF3SO2F/N2混合气体的绝缘强度已与SF6相当或超过SF6,最高可达1.47倍;相同占比下CF3SO2F/CO2混合气体的绝缘强度则在SF6的80%及以上。
当相对SF6绝缘强度曲线取得极大值时,认为对应的气压为CF3SO2F混合气体的优化气压值。CF3SO2F占比为30%、50%的CF3SO2F/N2混合气体优化气压值分别约为0.3 MPa和0.35 MPa,在该气压下,无论是在稍不均匀电场还是极不均匀电场下(电场不均匀度f变化范围为1.21~18.4),CF3SO2F/N2混合气体相对于SF6的绝缘强度较高且相对稳定。当气压大于0.3 MPa时,CF3SO2F占比为30%及以上的CF3SO2F/N2混合气体绝缘强度在SF6的89%以上。
2.3.3 相对SF6的电场敏感性
为定量比较CF3SO2F与SF6对电场不均匀度变化时的敏感程度,定义混合气体相对SF6的电场敏感度Sr式(1)
Sr=Ers-EreErs
式(1)中,ErsEre分别为稍不均匀、极不均匀电场下相对于SF6的绝缘强度。当Sr=0时,表示混合气体的电场敏感度与SF6相同;当Sr>0时,表示混合气体对电场的敏感度高于SF6,且Sr值越大,相对敏感程度越高;当Sr<0时,表示混合气体的电场敏感度低于SF6
假设稍不均匀电场下,间隙距离在2.5~10 mm范围内时,CF3SO2F混合气体相对于SF6的绝缘强度基本不变,则CF3SO2F混合气体相对SF6的电场敏感性Sr与气压的关系如图11所示。从图11可以看出,在0.1~0.3 MPa范围内,CF3SO2F混合气体相对于SF6表现出较高的电场敏感性,击穿电压受电场畸变影响下降的幅度较大。其原因可能是CF3SO2F是强电负性气体,吸附截面大于SF6[13],相同的尖电极表面场强下产生的稳定化电晕半径小于SF6,对尖电极附近畸变电场的均匀化作用较弱,导致CF3SO2F混合气体的击穿电压较低。在0.35 MPa附近CF3SO2F混合气体相对SF6的电场敏感度Sr最小,这是由于此时SF6在该气压下的击穿电压为“驼峰”极小值,放电形式可能已由流注转化为先导,而CF3SO2F混合气体仍处于“驼峰”区间,为流注放电范畴[19]
2.4 电场不均匀度对CF3SO2F混合气体工频击穿特性的影响
0.1 MPa下,电场不均匀度为1.46~18.4时,CF3SO2F混合气体的平均击穿电压变化情况如图12所示。从图12可以看出,随电场不均匀度的增加,CF3SO2F混合气体的平均击穿电压出现了饱和下降趋势。该特性与文献[20]中类似,在达到“临界电场不均匀度”后,混合气体相对SF6的击穿电压不再随电场不均匀度的增加而降低,趋于稳定。具体为:当电场不均匀度由1.46增大到11.2时,CF3SO2F占比为30%、50%的CF3SO2F/N2混合气体平均击穿电压下降程度分别为38%和34%,CF3SO2F占比为30%、50%的CF3SO2F/CO2混合气体平均击穿电压下降程度分别为32%和33%,稍好于CF3SO2F/N2混合气体;由于空间电荷对尖电极附近电场的畸变作用,当电场不均匀度大于11.2后,平均击穿电压基本不变。
2.5 CF3SO2F混合气体的液化温度-气压曲线
一个标准大气压下,CF3SO2F的液化温度为-22℃。基于Clausius-Claperyron方程与Trouton规则,混合气体的液化温度可以由式(2)估算[21]
TMb=Tb1-RXln(10kpv)
式(2)中:TMb为混合气体的液化温度,单位为K;k为CF3SO2F的占比;pv是气体的蒸气压,单位为MPa;Tb是气体的沸点(或液化温度),单位为K;R是理想气体常数,其值为8.314 J·mol-1·K-1X代表Trouton常数,通常为85~88 J·K,本文取X=85 J·K。CF3SO2F及其混合气体的液化温度-气压曲线计算结果如图13所示。从图13可以看出,在相同压力下,随着CF3SO2F含量的增加,混合气体液化温度增长幅度变缓。在典型限制温度-10℃下(参考GB 50545—2010[22]的要求),气压为0.3 MPa时CF3SO2F混合气体中的CF3SO2F占比可提升至50%,结合2.3节,该比例下的CF3SO2F/N2混合气体的绝缘强度优于SF6
3 结论
收起
(1)在球-球电极构成的稍不均匀电场下,CF3SO2F/N2和CF3SO2F/CO2混合气体的工频击穿电压均随气压增大呈线性变化,CF3SO2F/N2混合气体的工频击穿电压高于CF3SO2F/CO2混合气体。CF3SO2F占比分别为5%、10%、15%、20%、30%、40%、50%的CF3SO2F/N2混合气体相对于SF6的绝缘强度分别约为0.66、0.73、0.77、0.82、0.89、0.98、1.06倍。
(2)在尖-板电极构成的极不均匀电场下,CF3SO2F/N2和CF3SO2F/CO2混合气体的工频击穿电压均随气压增大呈“驼峰”曲线。CF3SO2F/N2混合气体的“驼峰”曲线极大值对应的气压范围在0.25~0.35 MPa,优化气压值为0.30~0.35 MPa。
(3)综合稍不均匀和极不均匀电场下的工频击穿特性,0.30 MPa及以上的新环保绝缘混合气体CF3SO2F/N2具有较大的应用潜力。
基金
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  • 国家自然科学基金联合基金资助项目(U1966211)
  • 广西高校中青年教师科研基础能力提升项目(2023KY1049)
文献
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2023年第56卷第12期
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doi: 10.16790/j.cnki.1009-9239.im.2023.12.017
  • 接收时间:2023-07-31
  • 首发时间:2025-11-24
  • 出版时间:2023-12-20
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  • 收稿日期:2023-07-31
  • 修回日期:2023-09-25
基金
国家自然科学基金联合基金资助项目(U1966211)
广西高校中青年教师科研基础能力提升项目(2023KY1049)
作者信息
    1南宁职业技术学院 智能制造学院,广西 南宁 530008
    2武汉大学 电气与自动化学院,湖北 武汉 430072
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鹅膏菌科Amanitaceae 2 11 5.26 鹅膏菌属 Amanita 10 4.78
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红菇科 Russulaceae 3 23 11.00 小皮伞属 Marasmius 6 2.87
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