高电压技术
高電壓技術
고전압기술
HIGH VOLTAGE ENGINEERING
2012年
8期
1877-1883
,共7页
刘刚%雷鸣%阮班义%周凡%李应宏%刘毅刚
劉剛%雷鳴%阮班義%週凡%李應宏%劉毅剛
류강%뢰명%원반의%주범%리응굉%류의강
单芯电缆%轴向传热%三维热路模型%线芯温度%实时计算%有限元法
單芯電纜%軸嚮傳熱%三維熱路模型%線芯溫度%實時計算%有限元法
단심전람%축향전열%삼유열로모형%선심온도%실시계산%유한원법
single-core cable%axial heat transfer%three-dimensional thermal circuit model%cable core temperature%real-time calculation%finite element method
为了研究轴向传热对电缆线芯温度的影响,首先以单芯电缆的三维微元热路模型为基础,建立了考虑单芯电缆轴向与径向传热的三维热路模型,且根据该三维热路模型实现了单芯电缆线芯温度实时计算的理论推导。其次,通过不同敷设环境下分别加载恒定与阶跃电流的实验,讨论了电流、电缆敷设环境与外界环境温度等因素对轴向、径向温度分布的影响。实验结果表明,电流是决定轴向温度梯度变化趋势的主要因素,空气中电缆的线芯温度上升速度最快,土壤中电缆次之,水中电缆最慢。最后通过有限元仿真工具,对比了空气中电缆中间接头三维有限元模型与二维有限元模型计算的线芯温度。研究结果表明,只考虑电缆径向传热的二维热路模型会造成线芯温度计算的误差,而考虑电缆轴向与径向传热的三维热路模型能够提高计算的精度。
為瞭研究軸嚮傳熱對電纜線芯溫度的影響,首先以單芯電纜的三維微元熱路模型為基礎,建立瞭攷慮單芯電纜軸嚮與徑嚮傳熱的三維熱路模型,且根據該三維熱路模型實現瞭單芯電纜線芯溫度實時計算的理論推導。其次,通過不同敷設環境下分彆加載恆定與階躍電流的實驗,討論瞭電流、電纜敷設環境與外界環境溫度等因素對軸嚮、徑嚮溫度分佈的影響。實驗結果錶明,電流是決定軸嚮溫度梯度變化趨勢的主要因素,空氣中電纜的線芯溫度上升速度最快,土壤中電纜次之,水中電纜最慢。最後通過有限元倣真工具,對比瞭空氣中電纜中間接頭三維有限元模型與二維有限元模型計算的線芯溫度。研究結果錶明,隻攷慮電纜徑嚮傳熱的二維熱路模型會造成線芯溫度計算的誤差,而攷慮電纜軸嚮與徑嚮傳熱的三維熱路模型能夠提高計算的精度。
위료연구축향전열대전람선심온도적영향,수선이단심전람적삼유미원열로모형위기출,건립료고필단심전람축향여경향전열적삼유열로모형,차근거해삼유열로모형실현료단심전람선심온도실시계산적이론추도。기차,통과불동부설배경하분별가재항정여계약전류적실험,토론료전류、전람부설배경여외계배경온도등인소대축향、경향온도분포적영향。실험결과표명,전류시결정축향온도제도변화추세적주요인소,공기중전람적선심온도상승속도최쾌,토양중전람차지,수중전람최만。최후통과유한원방진공구,대비료공기중전람중간접두삼유유한원모형여이유유한원모형계산적선심온도。연구결과표명,지고필전람경향전열적이유열로모형회조성선심온도계산적오차,이고필전람축향여경향전열적삼유열로모형능구제고계산적정도。
In order to study the influence of axial heat transfer on conductor temperature,firstly,on the basis of three-dimensional micro-element thermal circuit model,we established a three-dimensional thermal circuit model considering axial and radial heat transfer,by which we realized theoretical derivation of calculation for single-core cable temperature in real-time.Secondly,by experimentally investigating single-core cable loaded with constant and step current,respectively,in different laying circumstances,we discussed the influences of current and external laying condition on axial and radial temperatures of cable.The experimental results show that current is a predominate factor to determine the axial temperature gradient trend.The temperature of cable core surrounded by air rises in the fastest rate,that of the straight buried cable follows,and that of cable surrounded by water rises in the slowest rate.Finally,we compared the temperature of cable core of cable joints which was calculated by threedimensional model and two-dimensional model through finite element simulation tool.The results show that,if only the cable radial heat transfer is taken into consideration,the two-dimensional thermal circuit model will cause errors in the wire core temperature calculation,and three-dimensional thermal circuit model can improve the calculation accuracy.