Modeling the EHV transmission-line mode in light of actual corona losses

被引:2
|
作者
Balametov A.B. [1 ]
Khalilov E.D. [1 ]
Isaeva T.M. [2 ]
机构
[1] Azerbaijan Energy Design, Survey and Research Institute, Baku
[2] Azerbaijan State Oil and Industry University, Baku
来源
Russian Electrical Engineering | 2018年 / 89卷 / 2期
关键词
Airline; Corona losses; Equations with distributed parameters; Extra high voltage; Ladder line circuit; Modeling error; Reactive corona effect;
D O I
10.3103/S1068371218020037
中图分类号
学科分类号
摘要
Aspects of improving the accuracy of modeling extra-high-voltage (EHV) transmission-line (TLN) modes are considered using data from modern intelligent measurement systems. The methodological errors in modeling the parameters of EHV TLN modes are studied by line equations with distributed parameters. The proposed technique and algorithm of calculating EHV TLN modes rely on an equation of a line with distributed parameters, take account the actual characteristics of corona losses on voltage and the reactive corona effect, and make possible a higher accuracy of modeling. The accuracy of modeling EHV TLN modes is improved using a ladder equivalent circuit. A form of bicomponent equations for modeling overhead line (OHL) corona losses is proposed and justified. The first component is recorded in line equations with distributed parameters as conductivity, whereas the second component is presented as extra load. A program for computer-aided modeling of EHV TLN modes is developed. Results of calculations for 750-kV lines are presented. © A.B. Balametov, E.D. Khalilov, T.M. Isaeva, and Allerton Press, Inc., 2018.
引用
收藏
页码:127 / 132
页数:5
相关论文
共 50 条
  • [1] GASEOUS EFFLUENTS DUE TO EHV TRANSMISSION-LINE CORONA
    SCHERER, HN
    WARE, B
    SHIH, CH
    IEEE TRANSACTIONS ON POWER APPARATUS AND SYSTEMS, 1973, PA92 (03): : 1043 - 1049
  • [2] A note on the modeling of transmission-line losses
    Djordjevic, AR
    Zajic, A
    Tosic, DV
    Hoang, T
    IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES, 2003, 51 (02) : 483 - 486
  • [3] EXAMINATION OF OZONE EMANATING FROM EHV TRANSMISSION-LINE CORONA DISCHARGES
    SEBO, SA
    HEIBEL, JT
    FRYDMAN, M
    SHIH, CH
    IEEE TRANSACTIONS ON POWER APPARATUS AND SYSTEMS, 1976, 95 (02): : 693 - 703
  • [4] DETERMINATION OF SHUNT COMPENSATION FOR AN EHV TRANSMISSION-LINE
    INDULKAR, CS
    VISWANATHAN, B
    INTERNATIONAL JOURNAL OF ELECTRICAL ENGINEERING EDUCATION, 1984, 21 (01) : 85 - 89
  • [5] DEMONSTRATIONS TO PUBLIC OF EHV TRANSMISSION-LINE EFFECTS
    INKIS, WV
    IEEE TRANSACTIONS ON POWER APPARATUS AND SYSTEMS, 1978, 97 (02): : 438 - 443
  • [6] ARTIFICIALLY TRIGGERED LIGHTNING EXPERIMENTS TO AN EHV TRANSMISSION-LINE
    NAKAMURA, K
    HORII, K
    KITO, Y
    WADA, A
    IKEDA, G
    SUMI, S
    YODA, M
    AIBA, S
    SAKURANO, H
    WAKAMATSU, K
    IEEE TRANSACTIONS ON POWER DELIVERY, 1991, 6 (03) : 1311 - 1318
  • [7] EHV TRANSMISSION-LINE DESIGN OPPORTUNITIES FOR COST REDUCTION
    KENNON, RE
    DOUGLASS, DA
    IEEE TRANSACTIONS ON POWER DELIVERY, 1990, 5 (02) : 1145 - 1152
  • [8] ON THE MODELING OF CONDUCTOR AND SUBSTRATE LOSSES IN MULTICONDUCTOR, MULTIDIELECTRIC TRANSMISSION-LINE SYSTEMS
    ARABI, TR
    MURPHY, AT
    SARKAR, TK
    HARRINGTON, RF
    DJORDJEVIC, AR
    IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES, 1991, 39 (07) : 1090 - 1097
  • [9] LABORATORY AND FIELD EXPERIENCES WITH EHV TRANSMISSION-LINE INSULATORS IN DESERT
    RIZK, F
    ELARABATY, A
    ELSARKY, A
    IEEE TRANSACTIONS ON POWER APPARATUS AND SYSTEMS, 1975, 94 (05): : 1770 - 1776
  • [10] Modeling of UHV and Double-Circuit EHV Transmission-Line Exposure to Direct Lightning Strikes
    Rizk, Farouk A. M.
    IEEE TRANSACTIONS ON POWER DELIVERY, 2017, 32 (04) : 1739 - 1747
12345