论文信息 - A new method for real-time monitoring of high-voltage transmission-line conductor sag

A new method for real-time monitoring of high-voltage transmission-line conductor sag

The amount of power flowing through a high-voltage transmission line is proportional to its voltage and the current flowing through it. To increase power flow without modifying the line to support increased voltage, the current must be increased. There is a limit to this, however, since increasing the current causes the conductor temperature to increase and, hence, the conductors to elongate and sag. In this paper, a method to simply and inexpensively measure the amount of conductor sag and, through simple calculation, the average conductor core temperature is described, and the results of a field test are summarized. The method involves attaching two ends of a grounded wire of high electrical resistance to an appropriate location on each of two transmission-line towers and measuring the current induced on the wire by the nearby transmission-line conductors. Information from this measurement is a critical input to any method for dynamically rating transmission lines.

Robert G. Olsen | K. S. Edwards

[1] Robert G. Olsen,et al. Electromagnetic Coupling From Power Lines and Magnetic Field Safety Analysis , 1984, IEEE Transactions on Power Apparatus and Systems.

[2] P. D. Tuttle,et al. Current-carrying capacity of acsr , 1958, Electrical Engineering.

[3] D. A. Douglass,et al. Field studies of dynamic thermal rating methods for overhead lines , 1999, 1999 IEEE Transmission and Distribution Conference (Cat. No. 99CH36333).

[4] R. G. Olsen,et al. Electrical design parameters of all-dielectric-self-supporting fiber optic cable , 2000 .

[5] Paul F. Winkelman,et al. Sag-Tension Computations and Field Measurements of Bonneville Power Administration , 1959, Transactions of the American Institute of Electrical Engineers. Part III: Power Apparatus and Systems.

[6] Robert G. Olsen. An improved model for the electromagnetic compatibility of all-dielectric self-supporting fiber-optic cable and high-voltage power lines , 1999 .

[7] Arthur R. Bergen,et al. Power Systems Analysis , 1986 .

[8] G. T. Heydt,et al. Application of the Global Positioning System to the Measurement of Overhead Power Transmnission Conductor Sag , 2001 .

[9] D. A. Douglass,et al. Real-time monitoring and dynamic thermal rating of power transmission circuits , 1996 .