绝缘材料
絕緣材料
절연재료
INSULATING MATERIALS
2015年
8期
41-45
,共5页
张福增%李淑琦%朱永华%罗兵%吴建东%尹毅
張福增%李淑琦%硃永華%囉兵%吳建東%尹毅
장복증%리숙기%주영화%라병%오건동%윤의
直流电缆%热老化%空间电荷%场强畸变率
直流電纜%熱老化%空間電荷%場彊畸變率
직류전람%열노화%공간전하%장강기변솔
DC cable%thermal ageing%space charge%field distortion rate
对国产200 kV挤塑绝缘交联聚乙烯直流电缆进行切片热老化研究,通过空间电荷测试分析热老化对电缆空间电荷特性的影响.试验结果表明:未热老化试样表面靠近电极区域出现大量异极性空间电荷,导致试样内部电场发生严重畸变.这些异极性空间电荷主要源于电缆制造过程中的交联副产物,因制造过程中脱气不充分而残留在电缆绝缘内部.热老化初期,试样表面区域的异极性空间电荷快速消失,这可能是由于热老化过程中的高温加速了交联副产物的释放,降低了异极性空间电荷量,试样内部的电场畸变得到有效抑制.热老化后,试样表面区域的空间电荷由异极性电荷转变为同极性电荷,且同极性空间电荷量大致随热老化时间的增加而缓慢增加,表明XLPE材料经历了较缓慢的老化过程.
對國產200 kV擠塑絕緣交聯聚乙烯直流電纜進行切片熱老化研究,通過空間電荷測試分析熱老化對電纜空間電荷特性的影響.試驗結果錶明:未熱老化試樣錶麵靠近電極區域齣現大量異極性空間電荷,導緻試樣內部電場髮生嚴重畸變.這些異極性空間電荷主要源于電纜製造過程中的交聯副產物,因製造過程中脫氣不充分而殘留在電纜絕緣內部.熱老化初期,試樣錶麵區域的異極性空間電荷快速消失,這可能是由于熱老化過程中的高溫加速瞭交聯副產物的釋放,降低瞭異極性空間電荷量,試樣內部的電場畸變得到有效抑製.熱老化後,試樣錶麵區域的空間電荷由異極性電荷轉變為同極性電荷,且同極性空間電荷量大緻隨熱老化時間的增加而緩慢增加,錶明XLPE材料經歷瞭較緩慢的老化過程.
대국산200 kV제소절연교련취을희직류전람진행절편열노화연구,통과공간전하측시분석열노화대전람공간전하특성적영향.시험결과표명:미열노화시양표면고근전겁구역출현대량이겁성공간전하,도치시양내부전장발생엄중기변.저사이겁성공간전하주요원우전람제조과정중적교련부산물,인제조과정중탈기불충분이잔류재전람절연내부.열노화초기,시양표면구역적이겁성공간전하쾌속소실,저가능시유우열노화과정중적고온가속료교련부산물적석방,강저료이겁성공간전하량,시양내부적전장기변득도유효억제.열노화후,시양표면구역적공간전하유이겁성전하전변위동겁성전하,차동겁성공간전하량대치수열노화시간적증가이완만증가,표명XLPE재료경력료교완만적노화과정.
A 200kV extruded XLPE HVDC cable made in China was performed thermal ageing experi-ment, and the influence of thermal ageing on the space charge characteristics was analyzed by testing its space charge. The experimental results indicate that a large number of hetero-charges are accumulated near the surface area of the unaged sample, leading to severe field distortion of the sample. The hetero-charges mainly originate from the cross-linking byproducts of cable, which left in the insulation because of insufficient degassing during manufacturing process. In the initial stage of thermal ageing, the hetero-charges disappear suddenly. This is because the high temperature during thermal ageing process accelerates the release of cross-linking byproducts, resulting in the decrease of hetero-charges amount, making the field distortion be suppressed. When the sample is thermally-aged, the hetero-charges changes into homo-charges, and the amount of homo-charges increase slowly with the increase of thermal ageing time, which indicate that the XLPE experiences a rather slow ageing process.
