Definition and analysis of ground surface vibration curves induced by railway traffic

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Publication Title
Definition and analysis of ground surface vibration curves induced by railway traffic

Abstract
Prediction and control of ground-borne noise and vibrations are amongst the largest environmental challenges for railway exploitation in urban areas. Empirical methods based on attenuation curves, similar to those presented by the Federal Transit Administration (FTA) and the Federal Railroad Administration (FRA), could be extremely versatile for a first estimative of the vibration levels at the ground surface. Despite the value of the presented curves, these have a generalist character, not allowing to attend to the particular and specific scenarios. Furthermore, both railway technology and construction techniques adopted in other regions of the world are quite distinct from USA reality giving rise to poor predictions when applied in distinct contexts. In this way, advanced numerical modelling is a reliable alternative, allowing incorporation of the geological and geotechnical profile, type and geometric configuration of the railway track and railway vehicle specific to each case under study and, therefore, achieving a more elaborate level of detail in the analysis. On this work, a 2.5D FEM-PML (Finite Element Method – Perfectly Matched Layer) numerical approach is used to compute the ground surface vibration curves for different scenarios. From the results obtained, it is possible to state that, even being a conservative approach in some of the scenarios under consideration, the application of the empirical methodology proposed by FTA/FRA should be considered only as a first indicator, and it is recommended that more detailed analyses be performed in situations that require a higher control of the permitted vibration levels.
Authors
A. Colaco; Ruan Gomes; Eduardo Fortunato

Published In

18th European Conference on Soil Mechanics and Geotechnical Engineering (ECSMGE2024)

Theme

A - New developments on structural design

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