摘要
对不同换位形式下1 000 k V同塔双回线路的感应电压等问题进行了计算和分析。从限制感应电压、潜供电流、线路参数不平衡度的角度看,4段换位优于3段换位但多用1个换位塔;5段B型换位优于6段A型换位且可省1个换位塔;4段换位与6段A型换位的效果大致相当。为此,建议同塔双回线路着重考虑3种换位形式:3段换位(l/3,l/3,l/3)、4段换位(l/6,l/3,l/3,l/6)和5段B型换位(l/6,l/6,l/3,l/6,l/6)。一般不推荐采用2次以上的全循环换位。
The problems such as induced voltage and so on in 1 000 k V double-circuit transmission lines on the same tower were calculated and analyzed under different transposing forms. From the view point of restricting induced voltage,secondary arc current and unbalanced degree of line parameters,4 segment transposition is better than 3 segment transposition,but 1 more transposition tower is needed; while 5 segment type B transposition is better than 6 segment type A transposition and 1transposition tow er is saved. The effects of 4 segment transposition and 6 segment type A transposition are similar. Therefore,three kinds of transposing forms should be emphatically considered for double-circuit transmission lines on the same tower: 3segment transposition( l /3,l /3,l /3)),4 segment transposition( l /6,l /3,l /3,l /6)) and 5 segment type B transposition( l/6,l/6,l/3,l/6,l/6). It is not recommended to use more than 2 complete cycle transpositions in general.
出处
《电力建设》
北大核心
2015年第5期37-44,共8页
Electric Power Construction
基金
国家电网公司科技项目(SGTGYJSFW(2012)378)
关键词
1000
k
V
同塔双回线路
换位形式
感应电压
不平衡度
潜供电流
1 000 kV
double-circuit transmission lines on the same tower
transposing form
induced voltage
unbalanced degree
secondary arc current
