Title :
Reliability analysis and comparison of long-distance HVAC and HVDC power transmission lines
Author :
Alekseeva, N.D. ; Bubnova, A.V. ; Chudny, V.S. ; Tikhodeev, N.N.
Author_Institution :
HVDC Power Transmission Res. Inst. (NIIPT), St. Petersburg, Russia
Abstract :
Double-circuit HVDC overhead power transmission lines rated at ±500 to 750 kV with self-supporting towers and a long current-boosting capacity are capable to assure a maximum performance coefficient Kp of 0.996 (per 1000 km) in terms of electric energy transmitted. Much promise for densely populated areas is offered by quadrupolar transmission lines, i.e. those with double-circuit towers, calling for a minimum-width right-of-way. HVAC lines of a 500 to 1150 kV rating are inferior to their ±500-750 kV counterparts as regards maneuverability, right-of-way width and performance coefficient (Kp = 0.98-0.99), because the line must be de-energized each time a phase is damaged.
Keywords :
HVDC power transmission; power overhead lines; power transmission reliability; 500 to 750 kV; de-energized line; densely populated areas; double-circuit HVDC overhead power transmission lines; electric energy transmitted; long current-boosting capacity; long-distance HVAC transmission lines; long-distance HVDC transmission lines; maneuverability; maximum performance coefficient; minimum width right-of-way; performance coefficient; quadrupolar transmission lines; right-of-way; self-supporting towers; HVDC transmission; Integrated circuit interconnections; Poles and towers; Power generation; Power grids; Power transmission; Power transmission lines; Statistics; Turning; USA Councils;
Conference_Titel :
Power System Technology, 2002. Proceedings. PowerCon 2002. International Conference on
Print_ISBN :
0-7803-7459-2
DOI :
10.1109/ICPST.2002.1053569
