[1] HERBERTB D. Skin effect and proximity effect in tubular conductors[C]//10th Midwinter Convention of the AIEE, New York, USA, 1922.
[2] MORGAN V T. New formula to calculate the skin effect in isolated tubular conductors at low frequencies[J]. IEE Proceedings-Science Measurement Technology, 2000(147): 169-171.
[3] 韩晓燕. 输电线路摩尔根载流量简化公式的初步研究[J]. 电力系统及其自动化学报,2009,21(5):92-96.
HAN Xiao-yang. Preliminary study on Morgan transmission capacity simplified formula of transmission lines[J]. Proceedings of the CSU-EPSA, 2009, 21(5): 92-96.
[4] 赵杰. 高压直流输电的前沿技术[J]. 中国电力,2005,38(10): 1-6.
ZHAO Jie. HVDC transmission technologies at the frontier [J]. Electric Power, 2005, 38(10): 1-6.
[5] MORGAN V T. Electrical characteristics of steelcored aluminium conductors[J]. IEE proceedings of the Institution of Electrical Engineers, 1965, 112(2): 325-334.
[6] JCS 0374—2003裸线载流量计算方法[S]. 2003.
[7] ARRNOLD A H M. The alternating-current resistance of parallel conductors of circular cross-section[J]. Journal of the Institution of Electrical Engineers, 1936(78): 580-596.
[8] 刘士璋. 铝绞线钢芯铝绞线交直流电阻及载流量的计算[J]. 电线电缆,1988(6):6-12.
LIU Shi-zhang. Calculation of AC, DC resistance and carrying capacity on AAC and ACSR[J]. Wire and Cable, 1988(6): 6-12.
[9] MORGAN V T. Effect of temperature and tensile stress on the magnetic properties of a steel core from an ACSRconductor [J]. IEEE Transactions on Power Delivery, 1996, 11(4): 1907-1913.
[10] MORGAN V T. Magnetic sroperties in axial 50 Hz fields of steel core wire for overhead-line conductors [J]. IEE Proceedings of Institution of Electrical Engineers, 1969, 116(10): 1681-1694.
[11] LEWIS W A, TUTTLE P D. The resistance and reactance of aluminium conductors, steel reinforced[J]. Power Apparatus and Systems, part Ⅲ. Transactions of the American Institute of Electrical Engineers, 1958, 77(3): 1189-1215. |
