Dazhou Lv scite author profile

As one of the key technologies of the train, the braking system plays a vital role in ensuring the safe operation of the train. Plate braking has the characteristics that the higher the train speed, the better the braking effect, and it can be used as one of the options for emergency braking of the high-speed train.The dynamic grid technology is used to realize the plate movement, and the unsteady aerodynamic characteristic simulation of the train in plate braking process is realized based on the IDDES with SST k-w turbulence model. The formation and evolution of the ow eld in the process of plate braking are analyzed by the visualization technology, and the in uence law of plate opening on the aerodynamic forces of each car under the crosswind is explored. By loading the aerodynamic forces into the vehicle system dynamics model for calculation, the safety indexes (derailment coe cient and wheel load reduction rate) of the plate braking train under crosswind with different speeds are obtained. The results show that the rapid opening of the plate provides a large braking force for the train, but it destroys the stability of the ow eld around the train, especially the ow eld above the train, and the above phenomenon further aggravated by crosswind. The aerodynamic force distribution of each car in the train was signi cantly changed by crosswind, the proportion of the lateral force of the head car in the train is signi cantly increased, and the aerodynamic forces of each car were further increased by the opening of the plate. From the perspective of vehicle dynamics performance, with the increase of crosswind speed, the derailment coe cient and wheel load reduction rate of each car increase obviously, and even derailment and overturn occur. Under the crosswind, the dynamic performance of the head car is the worst, and it was further deteriorated by opening of the plate. The impact of the tail car is relatively small, and the dynamic performance of the head car can be used to evaluate the safety of the train. It is recommended to avoid opening the plate of the head car in strong crosswind.

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Matching of multiple aerodynamic parameters for railway train/tunnel systems to ensure critical airtightness performance of high-speed trains

Niu

et al. 2022

Struct Multidisc Optim

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Numerical study on transient aerodynamic characteristics of high-speed trains during the opening of braking plates based on dynamic-overset-grid technology

Niu

Yao

2023

Journal of Wind Engineering and Industrial Aerodynamics

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Unsteady aerodynamic characteristics and dynamic performance of the high-speed train in plate braking under a crosswind

Liu

Zheng

et al. 2022

Preprint

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As one of the key technologies of the train, the braking system plays a vital role in ensuring the safe operation of the train. Plate braking has the characteristics that the higher the train speed, the better the braking effect, and it can be used as one of the options for emergency braking of the high-speed train. The dynamic grid technology is used to realize the plate movement, and the unsteady aerodynamic characteristic simulation of the train in plate braking process is realized based on the IDDES with SST k-w turbulence model. The formation and evolution of the flow field in the process of plate braking are analyzed by the visualization technology, and the influence law of plate opening on the aerodynamic forces of each car under the crosswind is explored. By loading the aerodynamic forces into the vehicle system dynamics model for calculation, the safety indexes (derailment coefficient and wheel load reduction rate) of the plate braking train under crosswind with different speeds are obtained. The results show that the rapid opening of the plate provides a large braking force for the train, but it destroys the stability of the flow field around the train, especially the flow field above the train, and the above phenomenon further aggravated by crosswind. The aerodynamic force distribution of each car in the train was significantly changed by crosswind, the proportion of the lateral force of the head car in the train is significantly increased, and the aerodynamic forces of each car were further increased by the opening of the plate. From the perspective of vehicle dynamics performance, with the increase of crosswind speed, the derailment coefficient and wheel load reduction rate of each car increase obviously, and even derailment and overturn occur. Under the crosswind, the dynamic performance of the head car is the worst, and it was further deteriorated by opening of the plate. The impact of the tail car is relatively small, and the dynamic performance of the head car can be used to evaluate the safety of the train. It is recommended to avoid opening the plate of the head car in strong crosswind.

show abstract

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Dazhou Lv

Numerical simulation of the effect of air-intake on the indoor flow field of a dedusting equipment cabin used in tunnel construction

Unsteady aerodynamic characteristics and dynamic performance of high-speed trains during plate braking under crosswind

Matching of multiple aerodynamic parameters for railway train/tunnel systems to ensure critical airtightness performance of high-speed trains

Numerical study on transient aerodynamic characteristics of high-speed trains during the opening of braking plates based on dynamic-overset-grid technology

Unsteady aerodynamic characteristics and dynamic performance of the high-speed train in plate braking under a crosswind

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