参考文献
[1] 郭伟,姚楠. 豫西南地区首条220 kV大截面积导线高压输电线路设计探讨[J]. 电气应用,2011,30(2):60-62.
[2] 叶鸿声.《110 ~ 500 千伏架空送电线路设计技术规程》电气专题报告之一500 kV线路带电作业安全距离的选定[C]//中国电机工程学会输电线路专委会1997年综合学术年会,1997:170-204.
[3] 陈恺,林晓敏. 架空送电线路导线截面选择探讨[J]. 能源与环境,2017(1):45-46.
[4] 李莉华,高翔. 大截面导线技术[J]. 上海电力,2007,20(6):590-593.
[5] TRUFANOVA N M, BORODULINA K V, DYATLOV I A.A study of the electric-field intensity of conductors of a 500-kV air line[J].Russian Electrical Engineering,2017,88(11):706-708.
[6] 周孝信,郭剑波,胡学浩,等. 提高交流500 kV线路输电能力的实用化技术和措施[J]. 电网技术,2001,25(3):3-8.
[7] 蔡有志. 浅析高压输电线路增容导线的应用[J]. 通讯世界,2019(7):254-256.
[8] 林浩,胡全,王婷婷. 老旧输电线路增容工程中耐热导线的选择应用[J]. 中国电业(技术版),2016(3):65-67.
[9] 郭志涛,马杰,王永瑞.220 kV线路增容改造的耐热导线选型[J]. 机电信息,2017(36):83.
[10] 郑伟. 在增容改造工程利用旧杆塔更换新型碳纤维复合导线[J]. 电工材料,2017(2):44-48.
[11] JIM Hunt, TEPHEN Barrett.High Capacity, Low Sag[J].Transmission & Distribution World,2006(12):38-41.
[12] KOPSIDAS K, ROWLAND S M. A Performance Analysis of Reconductoring an Overhead Line Structure[J].IEEE Transactions on Power Delivery,2009,24(4):2248-2256.
[13] NETAKE A, KATTI P K. Design aspect of 765 kV transmission system for capacity enhancement[C]//2015 International Conference on Circuits, Power and Computing Technologies [ICCPCT-2015],2015:1-9.
[14] KOPSIDAS K, ROWLAND S M.Investigating the potential of re-conductoring a lattice tower overhead line structure[C]//IEEE PES T&D,2010:1-8.
[15] FAVUZZA S, IPPOLITO M G, MASSARO F, et al. A new approach to increase the integration of RES in a mediterranean island by using HTLS conductors[C]//2015 IEEE 5th International Conference on Power Engineering,Energy and Electrical Drives (POWERENG),2015:272-277.
[16] MATEESCU E, MARGINEAN D, GHEAORGHITA G, et al. Uprating a 220 kV double circuit transmission line in Romania;Study of the possible solutions,technical and economic comparison[C]//2009 IEEE Bucharest PowerTech,2009:1-7.
[17] 中国电力企业联合会.110 kV ~ 750 kV架空输电线路设计规范 第4 部分:气象条件:GB/T 50545—2010[S]. 北京:中国计划出版社,2014:9-11.
[18] MO Yang, WANG Yanling, LIANG Likai, et al. Study on the Impacts of Uncertain Meteorological Parameters on Line Transmission Capacity[J]. International Journal of Emerging Electric Power Systems,2018,19(4):1553-779X.
[19] MAKSIC M, DJURICA V, SOUVENT A, et al. Cooling of overhead power lines due to the natural convection[J].International Journal o f Electrical Power & Energy Systems,2019(113):333-343.
[20] XIE Guosheng, OUYANG Kejian. Design verification of stress and sag for 500 kV transmission line[J]. Vibroengineering PROCEDIA,2015,5:575-578.
[21] 尹增谦,徐东海,张晓宏. 输电线路等效电阻的计算[J]. 物理与工程,1999(5):19-20.
[22] GANG L, YANG L I, YUAN C, et al.Effect of Radial Temperature Difference on Sag Calculation for Overhead Conductors[J].Huanan Ligong Daxue Xuebao/Journal of South China University of Technology (Natural Science),2017,45(7):41-47.
[23] PAVLINIC A, KOMEN Vitomir.Direct monitoring methods of overhead line conductor temperature[J].Engineering Review,2017,37(2):134-146.
[24] 梁任. 架空导线运行温度及载流量的数值模拟分析[D]. 郑州:郑州大学,2017.
[25] 王志毅. 高压架空输电线路增容技术现场应用研究[D]. 北京:华北电力大学,2014.
[26] XIA Z, XIA Y, XU Z, et al.Study on the calculation model of maximum allowable time and ampacity for overload operation of overhead transmission line in a short time[C]//2015 5th International Conference on Electric Utility Deregulation and Restructuring and Power Technologies (DRPT),2015:1458-1461.
[27] 夏云峰,郑秋,黄国飞,等. 架空导线允许短时过负荷时间和载流量计算模型研究[J]. 电线电缆,2014(5):35-38.
[28] 党朋,赵文彬. 架空导线短时过负荷能力理论及试验研究[J]. 电线电缆,2015(3):39-42.
[29] 郑良华,田春光,王朔,等. 提高输电线路冬季载流量的仿真研究[J]. 吉林电力,2006,34(4):5-7.
[30] BABS Adam.Weather-based and conductor state measurement methods applied for dynamic line rating forecasting[C]//2011 International Conference on Advanced Power System Automation and Protection,2011:762-765.
[31] CLOET E, LILIEN J L.Uprating transmission lines through the use of an innovative realtime monitoring system[C]//2011 IEEE PES 12th International Conference on Transmission and Distribution Construction,Operation and Live-Line Maintenance (ESMO),2011:1-6.
[32] HECKENBERGEROVA J, MUSILEK Petr, FILIMONENKOV K.Assessment of seasonal static thermal ratings of overhead transmission conductors[C]//2011 IEEE Power and Energy Society General Meeting,2011:1-8.
[33] KIM S D, MORCOS M M.An Application of Dynamic Thermal Line Rating Control System to Up- Rate the Ampacity of Overhead Transmission Lines[J].IEEE Transactions on Power Delivery,2013,28(2):1231-1232.
[34] CARLINI E M, FAVUZZA S, GIANGRECO S E, et al. Uprating an overhead line. Italian TSO applications for integration of RES[C]//2013 International Conference on Clean Electrical Power (ICCEP),2013:470-475.
[35] FILIPPONE G, IPPOLITO M G, MASSARO F, et al. GIS systems and LIDAR technology for the operation of HV lines.Sicilian transmission network applications[C]//2013 International Conference on Renewable Energy Research and Applications (ICRERA),2013:868-872.
[36] YIP T, ATEN M, FERRIS B, et al.Dynamic line rating protection for wind farm connections[C]//International Conference & Exhibition on Electricity Distribution,2009:692-696.
[37] NUIJTEN J M, GESCHIERE A, SMIT J C, et al. Future network planning and grid control[C]//2005 International Conference on Future Power Systems,2005:7.
[38] STEPHEN R, LILIEN J L, DOUGLASS D,et al. Guide for Application of Direct Real-Time Monitoring Systems[M]. Cigré:Technical Brochure,2012.