Summary:
A formulation based on the analytical catenary equation has been implemented to obtain the initial equilibrium state of railway overheads. Due to the intrinsic nonlinear behavior of catenaries, the Newton–Raphson method has been chosen to find the solution. The herein presented method provides fast, accurate and robust initial equilibrium conditions which can be readily plugged into other numerical methods to simulate the catenary–pantograph interaction dynamics. Moreover, the size of the resulting problem is only dependent on the number of droppers and spans of the catenary, which leads to a minimum size problem when it is compared to other numerical methods. The validity and accuracy of the method have been proved by comparing computed results to published results. The results show excellent agreement with the comparison data.
Keywords: Catenary; Railway overhead; Initial equilibrium
JCR Impact Factor and WoS quartile: 0,813 (2006); 5,600 - Q1 (2023)
DOI reference: https://doi.org/10.1016/j.engstruct.2006.01.007
Published on paper: August 2006.
Published on-line: March 2006.
Citation:
O. López-García, A. Carnicero, V. Torres, Computation of the initial equilibrium of railway overheads based on the catenary equation. Engineering Structures. Vol. 28, nº. 10, pp. 1387 - 1394, August 2006. [Online: March 2006]