EXPERIMENTAL AND NUMERICAL INVESTIGATIONS OF HEATING IN A BUS CABIN UNDER TRANSIENT STATE CONDITIONS

WIT transactions on engineering sciences Pub Date : 2017-07-04 DOI:10.2495/CMEM170061

Özgür Ekici, Gökhan Güney

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Abstract

This study carries out an experimental and numerical work in order to investigate the air flow and temperature fields inside a coach bus cabin. In addition to a real-world experiment, an existing bus heating system has been investigated computationally using a three-dimensional model consisting of one seating row with periodical and symmetrical boundary conditions (BCs) as required. The seats, without including passengers as has been the case in the experiments, are created with adiabatic BCs. The developed computational fluid dynamics (CFD) model is used in a transient analysis of heating by employing the “Boussinesq Approximation” for buoyancy-induced effects and incorporating the experimentally obtained BCs into the system. The model validation is performed by comparing model results against experimentally obtained ones for three regions, corresponding to head, knee, and foot level of passengers. The difference between the measured and the calculated temperatures is found to be less than around 3°C for the head and foot level, while it is 5°C for the knee level of the passenger for the transient heating simulation.

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客车客舱瞬态加热的实验与数值研究

本文对客车客舱内的气流场和温度场进行了实验和数值研究。除了现实世界的实验外，还利用一个由一排座位组成的三维模型，根据需要使用周期性和对称的边界条件(bc)对现有的公共汽车加热系统进行了计算研究。这些座位，不像实验中那样包括乘客，是用绝热bc制成的。将建立的计算流体动力学(CFD)模型用于加热瞬态分析，采用“Boussinesq近似”计算浮力诱导效应，并将实验得到的BCs纳入系统。通过将模型结果与实验结果进行比较，对三个区域进行模型验证，分别对应于乘客的头部，膝盖和脚部水平。在瞬态加热模拟中，测量温度与计算温度之间的差异小于3°C左右，而乘客膝盖水平的差异为5°C。

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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来源期刊

WIT transactions on engineering sciences

CiteScore

1.20

自引率

0.00%

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