论文信息 - Power transfer capacity improvements of existing overhead line systems

Power transfer capacity improvements of existing overhead line systems

The increased demand for power transfer in combination with environmental and economic issues which set constraints to building new lines, force the implementation of new technologies into the existing system in order to improve its power capability. Such methods involve re-tensioning, re-conductoring, or modifying the tower design to utilize composite cross-arms. It is hypothesized that a composite cross-arm and a novel conductor together provide an insulating significant opportunity to increase the overhead line voltage. The paper explores the range of options that could be implemented on an L3 overhead line tower typically used at 275kV in the United Kingdom, and demonstrates clear improvement in power capacitiy through the implementation of new technologies.

I. Cotton | K. Kopsidas | S. M. Rowland | M. N. R. Baharom

[1] I. Kimoto,et al. Insulator Crossarms for 345-KV EHV Transmission Line , 1971 .

[2] Konstantinos Kopsidas,et al. Evaluation of potentially effective ways for increasing power capacity of existing overhead lines , 2009, 2009 International Conference on Sustainable Power Generation and Supply.

[3] S.M. Rowland,et al. A Performance Analysis of Reconductoring an Overhead Line Structure , 2009, IEEE Transactions on Power Delivery.

[4] K. Kopsidas,et al. A Holistic Method for Conductor Ampacity and Sag Computation on an OHL Structure , 2012, IEEE Transactions on Power Delivery.

[5] Paolo Pelacchi,et al. Compact lines for urban areas: a new solution , 1989 .

[6] Paolo Pelacchi,et al. A new type of compact line for urban and suburban areas , 1988 .

[7] Филипп Мияр,et al. The composite structure , 2004 .

[8] S. Nutt,et al. A composite core conductor for low sag at high temperatures , 2005, IEEE Transactions on Power Delivery.

[9] Konstantinos Kopsidas,et al. Investigating the potential of re-conductoring a lattice tower overhead line structure , 2010, IEEE PES T&D 2010.

[10] Konstantinos Kopsidas. Modelling Thermal Rating of Arbitrary Overhead Line Systems , 2009 .