Effect of liquid sloshing in lateral and longitudinal directions on railway tank cars based on an improved equivalent model

N. Xu, Chao Yang, Guangxue Yang, Zunsong Ren
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Abstract

Additional slosh forces and moments are generated owing to the movement of the liquid inside a partly filled tank car. The loads may have a great influence on the structure reliability and dynamic performance of the vehicle. An improved equivalent model of liquid sloshing is put forward to obtain the forces and moments of sloshing liquid acting on the tank during the lateral and longitudinal sloshing processes. An improved method is proposed to obtain the equivalent masses and stiffness for the improved equivalent model. The equivalent model is integrated into the multi-body dynamic model of a railway tank car with 68 degrees of freedom. Furthermore, the equivalent liquid-vehicle model is used to investigate the effects of fluid sloshing on dynamic characteristics. The influence of the filling ratio on the dynamic response of the tank car is discussed based on the forces and the corresponding moments between the tank car body and the liquid in different layers. The railway tank car is obviously influenced by the liquid sloshing during passing the curved and sloped tracks. The influence of liquid sloshing on the pitching motion of the tank is heavy if the tank is about half filled. The derailment coefficient and the wheel unloading rate are slightly influenced by the filling ratio of tank cars on curved tracks while the indices of the tank cars on sloped tracks are the greatest if the filling ratio is 40%.
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基于改进等效模型的液体横向和纵向晃动对铁路罐车的影响
额外的晃动力和力矩是由于液体在部分装满的罐车内的运动而产生的。载荷对车辆的结构可靠性和动力性能有很大的影响。提出了一种改进的液体晃动等效模型,得到了晃动液体在横向和纵向晃动过程中作用在罐体上的力和力矩。针对改进后的等效模型,提出了一种求解等效质量和等效刚度的改进方法。将等效模型集成到68自由度铁路罐车的多体动力学模型中。在此基础上,采用等效液车模型研究了流体晃动对动力特性的影响。根据罐车体与不同层间液体之间的作用力及相应力矩,讨论了灌装比例对罐车动力响应的影响。铁路罐车在通过弯道和斜道时,受到液体晃动的明显影响。当储罐约为半满时,液体晃动对储罐俯仰运动的影响较大。曲线轨道上油罐车的脱轨系数和车轮卸载率受填充率的影响较小,而当填充率为40%时,斜坡轨道上油罐车的指标最大。
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来源期刊
CiteScore
4.10
自引率
11.10%
发文量
38
审稿时长
>12 weeks
期刊介绍: The Journal of Multi-body Dynamics is a multi-disciplinary forum covering all aspects of mechanical design and dynamic analysis of multi-body systems. It is essential reading for academic and industrial research and development departments active in the mechanical design, monitoring and dynamic analysis of multi-body systems.
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