Abstract :
Power lines without overhead shield wires have low investment costs and their dependability in areas with low lightning incidence has been accepted. However, requirements for higher availability, improved power quality and lower maintenance costs may change the choice of line design as discussed in this paper. Results are presented from a comparison of three different 130 kV power line designs, with and without shield wires, with respect to lightning performance, ground-return currents, dependability and costs. The lightning performance is analysed by EMTDC-simulations and the probability for line-to-line and line-to-ground faults are calculated. The severity of resulting voltage dips, and the corresponding outage cost for sensitive customers are discussed. Fault current distributions for different grounding designs are calculated and required safety precautions and protective measures, on the power line or adjacent installations, are discussed. In conclusion: shielded lines have low outage costs, and show advantages in most technical aspects
Keywords :
costing; current distribution; earthing; fault currents; lightning protection; power overhead lines; power system analysis computing; power transmission economics; power transmission faults; power transmission protection; 130 kV; EMTDC-simulations; dependability; fault current distributions; ground-return currents; grounding designs; investment costs; lightning performance; line cost; line-to-ground faults; line-to-line faults; maintenance costs; overhead power line earthing; power line designs; power quality; protective measures; safety precautions; shield wires; voltage dips; Availability; Costs; Grounding; Investments; Lightning; Performance analysis; Power quality; Probability; Voltage fluctuations; Wires;
