Dynamics of an Overhead Line and Pantograph System

For an electrical railway overhead wire system there are two main factors which crucially affect the quality of current collection. One is the spatial stiffness variation of the overhead wire along each span and the other is the flexural wave motion in the wire. In this paper a periodically excited

In Japan speed tests in the region of 300 km/h have been carried out since the Oyama test line recorded a 319 km/h run in 1979. TGV recorded a 515.3 km/h run by an electric locomotive installed with a pantograph in 1990 and ICE achieved 406.9 km/h using a similar train in 1988. High-speed current co

A simply supported uniform Euler-Bernoulli beam carrying a crane (carriage and payload) is modelled. The crane carriage is modelled as a particle as is the payload which is assumed to be suspended from the carriage on a massless rigid rod and is restricted to motion in the plane defined by the beam

## Abstract This paper addresses the achievable advantage of the dynamic rating of overhead power lines based on the continuous monitoring of the ambient temperature and wind speed. Starting from their measured profiles on a typical summer day, the corresponding possible current loading of the line

An overhead rigid conductor line in a tunnel is free from the fear of disconnection because the contact wire is not tensioned, and it is superior in maintenance saving. In order to introduce this in open sections, we have developed a long-span-type overhead rigid conductor line of catenary system. T