中国电机工程学报
中國電機工程學報
중국전궤공정학보
ZHONGGUO DIANJI GONGCHENG XUEBAO
2014年
3期
453-459
,共7页
普子恒%阮江军%黄道春%黎鹏%王国利%吴田
普子恆%阮江軍%黃道春%黎鵬%王國利%吳田
보자항%원강군%황도춘%려붕%왕국리%오전
直流电压%输电线路%火焰%外绝缘%击穿机理
直流電壓%輸電線路%火燄%外絕緣%擊穿機理
직류전압%수전선로%화염%외절연%격천궤리
DC voltage%transmission line%fire%external insulation%breakdown mechanism
近年来,多条特高压直流线路建成投运,还有多条直流输电线路正在规划,山火严重威胁到输电线路的绝缘安全和可靠运行,研究火焰条件下间隙的直流电压击穿特性和放电机理具有重要意义,但国内外在山火条件下间隙直流电压击穿特性方面的研究较少。间隙在山火条件下击穿机理涉及火焰温度、电导率和灰烬等个因素,不同植被的燃烧特性决定了这3种因素触发放电的影响程度不同,因而击穿电压存在较大的差异。文中研究典型植被的火焰特性,利用模拟山火对不同影响因素条件下的导线-板间隙直流电压放电特性进行试验研究,分析了山火条件下间隙击穿机理。研究发现间隙在火焰中绝缘强度下降到纯空气的20%左右,直流电压下间隙的击穿存在明显的极性效应。
近年來,多條特高壓直流線路建成投運,還有多條直流輸電線路正在規劃,山火嚴重威脅到輸電線路的絕緣安全和可靠運行,研究火燄條件下間隙的直流電壓擊穿特性和放電機理具有重要意義,但國內外在山火條件下間隙直流電壓擊穿特性方麵的研究較少。間隙在山火條件下擊穿機理涉及火燄溫度、電導率和灰燼等箇因素,不同植被的燃燒特性決定瞭這3種因素觸髮放電的影響程度不同,因而擊穿電壓存在較大的差異。文中研究典型植被的火燄特性,利用模擬山火對不同影響因素條件下的導線-闆間隙直流電壓放電特性進行試驗研究,分析瞭山火條件下間隙擊穿機理。研究髮現間隙在火燄中絕緣彊度下降到純空氣的20%左右,直流電壓下間隙的擊穿存在明顯的極性效應。
근년래,다조특고압직류선로건성투운,환유다조직류수전선로정재규화,산화엄중위협도수전선로적절연안전화가고운행,연구화염조건하간극적직류전압격천특성화방전궤리구유중요의의,단국내외재산화조건하간극직류전압격천특성방면적연구교소。간극재산화조건하격천궤리섭급화염온도、전도솔화회신등개인소,불동식피적연소특성결정료저3충인소촉발방전적영향정도불동,인이격천전압존재교대적차이。문중연구전형식피적화염특성,이용모의산화대불동영향인소조건하적도선-판간극직류전압방전특성진행시험연구,분석료산화조건하간극격천궤리。연구발현간극재화염중절연강도하강도순공기적20%좌우,직류전압하간극적격천존재명현적겁성효응。
Hill fire is a serious threat to the reliability of UHV DC transmission lines and security of power grids. So, it is very important to study the DC voltage breakdown characteristics and discharge mechanism of gap under fire conditions. However, there has been few researches on the DC gap voltage discharge characteristics under fire conditions at home or abroad. Gap breakdown in forest fire is related with flame temperature, conductivity and ashes and different vegetation’s combustion characteristic result in the different influence degree of the three factors on triggering discharge, thus breakdown voltage has great diversity. This paper studied the flame characteristics of typical vegetation, DC voltage breakdown characteristics of wire-plate gap under different affecting factors using simulated forest fire, and then analyzed the gap breakdown mechanism in the forest fire conditions. Experimental results show that the gap’s insulation strength in the flames is down to about 20% of pure air, and the gap breakdown in DC voltage has obvious polarity effect.
