Study on the Lightning Protection Performance of Back Striking for Double-circuit Transmission Line Based on Distributed Line Tower Model;

Based on both multi-wave impedance model of towers and lightning leader development based lightning shielding model, the lightning withstand performances of back striking, shielding failure for ±800kV UHVDC transmission line as well as related influencing factors are analyzed.

This paper details the lightning protection performance of back striking for an AC 500 kV double-circuit transmission line by EMTP.

At first,whether shielding failures or backflashovers causing the line insultor flashover should be ascertained.

Geographic, geomorphologic and weather characteristics of transmission line inmountain areas, especially the generation mechanism of lightning counterattack and lighting bypass strike are introduced.

By looking through many documents and watching different lecvels soccer games,this essay explores the chances to counterattack from defenes of corner kicks.

This article will focus on the attributes of counterattack,the factors influencing the counterattack of the competitors,adding the real cases of competition.

Considering the importance of 500 kV line and taking 500 kV transmission line in Chongqing as an example, the authors calculate lightning strike outage rate (including return stroke and lightning shielding failure) using regulation method, outage rate of return stroke using travelling wave method, and outage rate of lightning shielding failure using EGM.