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Effect of aerodynamic force change caused by car-body rolling on train overturning safety under strong wind conditions

Dongrun Liu, G. Tomasini, Federico Cheli, Mu Zhong, Lei Zhang, Zhaijun Lu

2020Vehicle System Dynamics14 citationsDOI

Abstract

Understanding the relationship between car-body vibration and train aerodynamic forces is very important for developing a reasonable operation plan when the train passes through the complex terrain under strong wind conditions. In this study, car-body vibration under strong wind conditions was initially investigated with a full-scale test. Then the train aerodynamic forces for different rotation configurations with a train speed of 250 km/h and a wind speed of 25 m/s were further studied using a Computational Fluid Dynamics simulation. The results revealed that the car-body vibration was primarily a low-frequency and large-amplitude rolling and transverse coupling motion in windy conditions, and the roll angle of the car-body with respect to the bogie frame was greater than that of the bogie frame with respect to the track. The train aerodynamic force coefficients are sensitive to the car-body rolling motion in windy conditions. When the car-body rolling from the windward side to the leeward side, the significant reduction in the negative pressure at the bottom of the car-body was the dominant reason for the train lift force increase, and the effect of the aerodynamic force change caused by car-body rolling on the train overturning risk was not significant.

Topics & Concepts

BogieAerodynamic forceAerodynamicsVibrationEngineeringCrosswindStructural engineeringLift (data mining)Marine engineeringAerospace engineeringAcousticsPhysicsComputer scienceData miningAerodynamics and Fluid Dynamics ResearchWind and Air Flow StudiesFluid Dynamics and Vibration Analysis
Effect of aerodynamic force change caused by car-body rolling on train overturning safety under strong wind conditions | Litcius