中国电机工程学报
中國電機工程學報
중국전궤공정학보
ZHONGGUO DIANJI GONGCHENG XUEBAO
2015年
16期
4271-4279
,共9页
周凯%陶文彪%赵威%陶霰韬%蔡钢%刘曦%杨琳
週凱%陶文彪%趙威%陶霰韜%蔡鋼%劉晞%楊琳
주개%도문표%조위%도산도%채강%류희%양림
交联聚乙烯电缆%水树%电-机械应力%自恢复性%蠕变
交聯聚乙烯電纜%水樹%電-機械應力%自恢複性%蠕變
교련취을희전람%수수%전-궤계응력%자회복성%연변
XLPE cable%water tree%electrical-mechanical stress%self-recovery%creep
为了更准确地评估水树老化电缆的绝缘状态,研究了水树老化电缆出现的绝缘自恢复特性与水树微观结构变化之间的关联,并提出了基于蠕变模型的绝缘自恢复机制。在电缆的加速水树老化过程中,介质损耗因数及泄漏电流值随老化时间的增加而逐渐增大,老化区II出现明显水树枝,当撤离外施电压一段时间后,二者均有所下降,出现了绝缘自恢复现象。通过构建“珍珠串”有限元仿真模型和四元件蠕变模型,研究了水树微观结构变化同水树生长及自恢复之间的关系,并计算分析了水树蠕变过程对介质损耗因数及泄漏电流的影响。研究表明,在没有外施电压作用时,水树的蠕变过程使得水树通道关闭、水树空洞缩小,导致介质损耗因数和泄漏电流下降。因此,水树蠕变过程是电缆绝缘自愈的主要-因。
為瞭更準確地評估水樹老化電纜的絕緣狀態,研究瞭水樹老化電纜齣現的絕緣自恢複特性與水樹微觀結構變化之間的關聯,併提齣瞭基于蠕變模型的絕緣自恢複機製。在電纜的加速水樹老化過程中,介質損耗因數及洩漏電流值隨老化時間的增加而逐漸增大,老化區II齣現明顯水樹枝,噹撤離外施電壓一段時間後,二者均有所下降,齣現瞭絕緣自恢複現象。通過構建“珍珠串”有限元倣真模型和四元件蠕變模型,研究瞭水樹微觀結構變化同水樹生長及自恢複之間的關繫,併計算分析瞭水樹蠕變過程對介質損耗因數及洩漏電流的影響。研究錶明,在沒有外施電壓作用時,水樹的蠕變過程使得水樹通道關閉、水樹空洞縮小,導緻介質損耗因數和洩漏電流下降。因此,水樹蠕變過程是電纜絕緣自愈的主要-因。
위료경준학지평고수수노화전람적절연상태,연구료수수노화전람출현적절연자회복특성여수수미관결구변화지간적관련,병제출료기우연변모형적절연자회복궤제。재전람적가속수수노화과정중,개질손모인수급설루전류치수노화시간적증가이축점증대,노화구II출현명현수수지,당철리외시전압일단시간후,이자균유소하강,출현료절연자회복현상。통과구건“진주천”유한원방진모형화사원건연변모형,연구료수수미관결구변화동수수생장급자회복지간적관계,병계산분석료수수연변과정대개질손모인수급설루전류적영향。연구표명,재몰유외시전압작용시,수수적연변과정사득수수통도관폐、수수공동축소,도치개질손모인수화설루전류하강。인차,수수연변과정시전람절연자유적주요-인。
To accurately evaluate the insulation condition of water tree aged cables, this paper addresses the relationship between the self-recovery properties of insulation and the microstructure changes in water tree aged cables, and a mechanism of insulation self-recovery is presented based on a creep model. During the process of accelerated water tree aging, the dielectric loss factor and the leakage current increased with the aging time, and the water tree branches can be clearly observed in the aging area. However, the two electrical parameters decreased when the applied voltage was removed from the aged samples, and a self-recovery phenomenon of insulation appeared. Based on the “string of peals” model and the four-element creep model, the relationship between the changes of water tree microstructure and the water tree self-recovery phenomenon was investigated. According to the results of electric field simulation and the creep theory, the effect of the creep process on the dielectric loss factor and the leakage current was also analyzed. The results show that the water tree self-recovery phenomenon is closely related to the changes of water tree microstructure. During the period without applied voltage, the creep process of water tree leads to closing of water tree channels and shrink of water tree voids, which can lead to the reduction of the dielectric loss factor and the leakage current. Therefore, the water tree creep process is the main reason for the cable insulation self-recovery.