Abstract
A method for human safety assessment on a hydropeaked river reach is proposed and applied to an Alpine river. The proposed procedure is characterized by the combination of hydraulic simulations with a human safety analysis. Human safety can be assessed in two different ways: one is by studying human stability during hydropeaking events and the other is exploring the possibility of a “target person” leaving the reach during hydropeaking waves, adapting proper escape strategies. For the escape strategy Dijkstra’s algorithm is used, where the distance between adjacent nodes is defined as the difficulty (penalty) of moving from one node to the other. The results show that the areas where the human safety is very low are mainly located in the central part of the watercourse. The present work proposes a possible investigational tool to evaluate and parameterize the risk for the population during hydropeaking events through quantitative indices.