The aim of this study is to investigate experimentally and numerically the effect of the crosswind and wagon numbers to the aerodynamic characteristics as well as fuel consumption of the locomotive Alstom AD43C and some specified passenger wagons behind it. Turbulent, incompressible, and 3D airflow has been considered for numerical simulation. Simulations are carried out for yaw angles 0°, 15°, and 30° for different airflow velocities. A total of 16 pressure tabs were employed to measure the air pressure at various points on the 1:26 scaled model of the train in the experimental investigation. Comparison between the numerical and the experimental results verifies the numerical simulation method. The results show that the variation of the longitudinal force coefficient (LFC) and side force coefficient (SFC) in the middle wagons (except for the first two and last two wagons) is similar. The LFC and SFC of these wagons are 0.239 and 1.251, respectively, for the Reynolds number 1.587 × 105 (airflow velocity 30 m/s) and the yaw angle 30°. However, the Reynolds number effect is insignificant. The yaw angle effect on the train fuel consumption is more important. Moreover, the fuel consumption increases by approximately 25 % from the yaw angle 0° to 30° for ten wagons at the Reynolds number 1.587 × 105.
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机译:这项研究的目的是通过实验和数值研究侧风和货车数量对机车Alstom AD43C及其后面的某些指定载客货车的空气动力特性以及燃油消耗的影响。数值模拟已考虑了湍流,不可压缩和3D气流。针对不同的气流速度,分别对偏航角0°,15°和30°进行了仿真。在实验研究中,总共使用了16个压力标签来测量火车在1:26比例模型上各个点的气压。数值与实验结果的比较验证了数值模拟方法的正确性。结果表明,中间货车(前两个货车除外)的纵向力系数(LFC)和侧力系数(SFC)的变化相似。对于雷诺数1.587×105(气流速度30 m / s)和偏航角30°,这些货车的LFC和SFC分别为0.239和1.251。但是,雷诺数效应微不足道。偏航角对火车燃油消耗的影响更为重要。此外,在雷诺数为1.587×105的情况下,十辆货车的油耗从偏航角0°到30°大约增加了25%,
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