首页|Numerical and Experimental Study on Ventilation Panel Models in a Subway Passenger Compartment

Numerical and Experimental Study on Ventilation Panel Models in a Subway Passenger Compartment

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The internal flow field study of car compartments is an important step in railroad vehicle design and optimization.The flow field profile has a significant impact on the temperature distribution and passenger comfort level.Experimental studies on flow field can yield accurate results but carry a high time and computational cost.In contrast,the numerical simulation method can yield an internal flow field profile in less time than an experimental study.This study aims to improve the computational efficiency of numerical simulation by adapting two simplified models-the porous media model and the porous jump face model-to study the internal flow field of a railroad car compartment.The results provided by both simplified models are compared with the original numerical simulation model and with experimental data.Based on the results,the porous media model has a better agreement with the original model and with the experimental results.The flow field parameters (temperature and velocity) of the porous media model have relatively small numerical errors,with a maximum numerical error of 4.7%.The difference between the numerical results of the original model and those of the porous media model is less than 1%.By replacing the original numerical simulation model with the porous media model,the flow field of subway car compartments can be calculated with a reduction of about 25% in computing resources,while maintaining good accuracy.

Numerical simulationExperimentVentilation panel modelSubway

Yu Tao、Mingzhi Yang、Bosen Qian、Fan Wu、Tiantian Wang

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Key Laboratory of Traffic Safety on Track, Ministry of Education, School of Traffic and Transportation Engineering, Central South University, Changsha 410075, China

Joint International Research Laboratory of Key Technologies for Rail Traffic Safety, Changsha 410075, China

authors would like to thank Yuxiang Xi and Xin Liu for their contributions to the numerical simulation investigationTiantian Wang gratefully acknowledges financial support from the National Key R&D Program of ChinaTiantian Wang gratefully acknowledges financial support from the National Key R&D Program of China

2016YFB1200602-112016YFB1200602-12

2019

工程(英文)

工程(英文)

CSTPCDSCIEI
ISSN:2095-8099
年,卷(期):2019.5(2)
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