Determining the vehicle instability risk in stream crossings

Floods negatively affect roads, vehicles and transport systems in general. The impact on these systems leads to a cascasing effect with significant repercussions. Due to this, the evaluation of the instability risk to which the vehicles are subjected in stream crossing is necessary for the integral management of floods. A methodology was herein developed that allows instability risks due to floods to be estimated for vehicles driving through stream crossings, which may correspond to fords, vented fords or bridges. Risk was calculated by combining hazard and vulnerability. To determine hazard, a stability function of partially submerged vehicles, the geometric characteristics of vehicles, the hydrodynamic characteristics of floods (water depths and velocities) and the probability of them occurring were employed. Vulnerability was determined by combining exposure and susceptibility, which are respectively established with the exposure and damage function. To determine exposure, a limit water depth to interrupt the traffic of vehicles through the flooded area was considered. The developed methodology was applied to the Godelleta municipality (Spain), and found that roughly one quarter of the stream crossings in this study area presented a relatively high vehicle instability risk due to floods because it exceeded 0.2 vehicles/year.

Automated summary

A methodology was developed to estimate the instability risks for vehicles driving through stream crossings affected by floods. By combining hazard and vulnerability factors, the study focused on a municipality in Spain and found that roughly one quarter of the stream crossings in the area had a relatively high vehicle instability risk due to floods.