Study of the Dynamic Loading of the Load-Bearing Structure of a Flat Wagon During Transportation by Sea

EnergyRN: Energy Efficiency (Topic) Pub Date : 2020-11-30 DOI:10.21303/2461-4262.2020.001512

O. Fomin, A. Lovska, O. Safronov, O. Soroka

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Abstract

To increase the efficiency of combined transportation, the supporting structure of flat wagon has been created. A feature of the wagon is that the sections have a low center of gravity. This solution allows for the transportation of oversized cargo on a flat wagon within the established dimensions. The design of this flat wagon can be used for the carriage of goods not only by main lines, but also in rail and water traffic when transported by rail ferries. To ensure the safety of transportation of a flat wagon with containers on a railway ferry, their dynamic loading was determined. It is taken into account that a large-capacity container of 1AA standard size is placed on each section. The solution of the mathematical model was carried out in the MathCad software package. The resulting accelerations, as components of the dynamic load, were taken into account when determining the stability of a container on a flat wagon during transportation by a rail ferry. It was found that the stability of the container is ensured at tilt angles up to 25°. A computer simulation of the dynamic loading of the supporting structure of an articulated flat wagon with containers during transportation by a railway ferry has been carried out. The calculation is implemented in the CosmosWorks software package using the finite element method. The fields of distribution of accelerations relative to the supporting structure of the flat wagon and containers are determined. The maximum percentage of discrepancy between the results of mathematical and computer simulation does not exceed 11 %. The research carried out will contribute to the creation of innovative designs of flat wagons, as well as to increase the efficiency of the operation of combined transport in international traffic

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海上运输平板车承重结构的动载荷研究

为了提高联运效率，创造了平板货车的支撑结构。这种马车的一个特点是各部分重心较低。该解决方案允许在既定尺寸内用平板车运输超大货物。这种平板车的设计不仅可以用于干线运输货物，而且在铁路轮渡运输时也可以用于铁路和水上交通运输。为保证铁路轮渡集装箱平车的安全运输，确定了平车的动态载荷。考虑到每段放置1AA标准尺寸的大容量集装箱。数学模型的求解在MathCad软件包中进行。由此产生的加速度，作为动载荷的组成部分，在确定铁路轮渡运输过程中集装箱在平车上的稳定性时被考虑在内。结果发现，在倾角达25°时，容器的稳定性得到了保证。对铁路轮渡运输集装箱铰接式平车支承结构的动载荷进行了计算机模拟。在CosmosWorks软件包中采用有限元法进行计算。确定了相对于平车和集装箱支撑结构的加速度分布场。数学模拟结果与计算机模拟结果之间的最大差异百分比不超过11%。所进行的研究将有助于创造创新的平面货车设计，以及提高国际交通联运的运作效率

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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EnergyRN: Energy Efficiency (Topic)

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