智能电网
智能電網
지능전망
Smart Grid
2015年
6期
512-518
,共7页
郭焕辉%王银顺%黄佩玮%苗金亚%刘常军%李杨%鞠鹏
郭煥輝%王銀順%黃珮瑋%苗金亞%劉常軍%李楊%鞠鵬
곽환휘%왕은순%황패위%묘금아%류상군%리양%국붕
架空线路%交流融冰%温升%融冰效率
架空線路%交流融冰%溫升%融冰效率
가공선로%교류융빙%온승%융빙효솔
overhead lines%AC de-icing%temperature rise%ice-melting efficiency
与现有架空线路热力融冰技术不同,设计一种内置绝缘双绞铜线加热器的融冰导线,实现线路覆冰段交流融冰。为了进一步提高融冰导线的传热效率,用含有高导热的氮化铝涂料填充导线内部的气隙。基于传热学原理,对融冰导线的传热效果进行理论分析,制作试样并进行融冰实验。研究结果表明:设计的融冰方法具有可行性。氮化铝混合物的加入会明显改善导线的传热效果,极大地降低导线内部温升,因而,在保证融冰导线热稳定性的前提下,允许进一步增大融冰功率,缩短融冰时间,提高融冰效率。
與現有架空線路熱力融冰技術不同,設計一種內置絕緣雙絞銅線加熱器的融冰導線,實現線路覆冰段交流融冰。為瞭進一步提高融冰導線的傳熱效率,用含有高導熱的氮化鋁塗料填充導線內部的氣隙。基于傳熱學原理,對融冰導線的傳熱效果進行理論分析,製作試樣併進行融冰實驗。研究結果錶明:設計的融冰方法具有可行性。氮化鋁混閤物的加入會明顯改善導線的傳熱效果,極大地降低導線內部溫升,因而,在保證融冰導線熱穩定性的前提下,允許進一步增大融冰功率,縮短融冰時間,提高融冰效率。
여현유가공선로열력융빙기술불동,설계일충내치절연쌍교동선가열기적융빙도선,실현선로복빙단교류융빙。위료진일보제고융빙도선적전열효솔,용함유고도열적담화려도료전충도선내부적기극。기우전열학원리,대융빙도선적전열효과진행이론분석,제작시양병진행융빙실험。연구결과표명:설계적융빙방법구유가행성。담화려혼합물적가입회명현개선도선적전열효과,겁대지강저도선내부온승,인이,재보증융빙도선열은정성적전제하,윤허진일보증대융빙공솔,축단융빙시간,제고융빙효솔。
Differing from the existing thermal ice-melting technology for overhead lines, a new kind of ice-melting line with a heater, bifilarly wound by insulated twisted-pair copper wires and set along the axis of overhead lines, is proposed for alternative current (AC) de-icing of overhead lines. In order to improve the heat transfer efficiency of ice-melting lines, the gap among wires of overhead line is filled by mixture of epoxy resin and Aluminum Nitride (AlN), a kind of semi-conductor powder with high thermal conductivity. Based on the principles of heat transfer, theoretical analysis on heat transfer effects of ice-melting lines is made. After preparing some specimen, the ice-melting experiment is also carried out. The results have verified the feasibility of the ice-melting method and also have manifested that adding AlN mixture obviously improves the heat transfer efficiency of lines and the inner temperature rise significantly decreases. Consequently, adding AlN mixture shortens ice-melting time and improves ice-melting efficiency on the premise of guaranteeing thermal stability of ice-melting lines and allows further increase of ice-melting power.