Method for evaluating single-track elevated section electrified railway lightning trip-out rate
A single-line technology for electrified railways, applied in the direction of measuring electricity, measuring electrical variables, forecasting, etc., can solve problems such as lightning protection design and lightning protection transformation difficulties for electrified railways
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[0076] Through the following examples, combined with the attached Figure 1 , to further illustrate the technical solution of the present invention.
[0077] The first step is to obtain line parameters. For a single-track elevated section of a railway, the height of the viaduct is 10m, the height of the return line to the viaduct deck is 8m, the height of the catenary cable to the viaduct deck is 7.8m, the distance between the catenary cable and the inner side of the pillar is 3m, and the distance between the return line and the inner side of the pillar is 0.8m. The line radius is 6.25mm, the insulator U50% discharge voltage is 270kV, the lightning current wave head time is 2.6μs, the lightning day is 40 days, the average operating voltage gradient of the insulator string is 20.36kV, the grounding resistance of the pillar is 10Ω, the equivalent inductance of the pillar is 6.72μH, and the phase The parallel connection value of the inductance adjacent to the return line is 36.85...
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