Study on Inter-zonal Heat Transfer for Large Space Buildings with Floor-level Side Wall Air-supply System

Wang Haidong; Hu Hao; Zhu Jieke; Yang Xinqi; Wang Ruikun

doi:10.3969/j.issn.0253-4339.2022.02.089

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Study on Inter-zonal Heat Transfer for Large Space Buildings with Floor-level Side Wall Air-supply System

更新时间：2024-07-18

- Study on Inter-zonal Heat Transfer for Large Space Buildings with Floor-level Side Wall Air-supply System
- Journal of Refrigeration Vol. 43, Issue 2, (2022)
- 作者机构：
  
  1. 上海理工大学环境与建筑学院
  2. 航天万源实业有限公司
- 作者简介：
- 基金信息：
- DOI：10.3969/j.issn.0253-4339.2022.02.089
  CLC：
- Published：2022
- 稿件说明：
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Wang Haidong, Hu Hao, Zhu Jieke, et al. Study on Inter-zonal Heat Transfer for Large Space Buildings with Floor-level Side Wall Air-supply System[J]. Journal of refrigeration, 2022, 43(2).
DOI：

Wang Haidong, Hu Hao, Zhu Jieke, et al. Study on Inter-zonal Heat Transfer for Large Space Buildings with Floor-level Side Wall Air-supply System[J]. Journal of refrigeration, 2022, 43(2). DOI： 10.3969/j.issn.0253-4339.2022.02.089.

摘要

本文采用实验和计算流体力学（CFD）方法，研究了带有柱状下送风系统的大空间建筑中，由气流换热和温差导热组成的对流转移热的计算方法。在缩尺模型实验室中，研究了三种不同排风比的热环境和负荷特性，根据实验得到的中心线垂直温度分布和空调冷负荷验证了CFD模拟结果，并基于相似理论，将缩尺数值模型拓展至全尺寸工况模拟。结果表明：在柱状下送风系统中，温差引起的热传导在区域间换热中起主导作用。将整个室内空间垂直方向划分两个区域，原型建筑的区域间传热系数Cb在排风比为0、10%、20%时分别为7.92、6.14、3.81 W/(m2?°C)。Cb主要受气流状态、区域划分方式和气流组织形式影响，而受屋顶排风方式的影响较小。

Abstract

This study uses experimental and computational fluid dynamics (CFD) methods to investigate convective heat transfer

heat convection caused by airflow

and heat conduction caused by temperature differences in large-space buildings with floor-level side wall air-supply systems. Three thermal environment experiments with different roof exhaust ratios were conducted in a reduced-scale laboratory to investigate the indoor thermal environment and load characteristics. The CFD simulation results were verified based on the experimentally obtained vertical temperature distribution of the central line and air-conditioning cooling load. Based on similarity theory

reduced-scale numerical models are extended to full-scale configurations. The results show that the heat conduction due to the temperature difference dominates the inter-zonal heat transfer in the floor-level side wall air-supply system. By dividing the entire indoor space into two zones in the vertical direction

the values of inter-zonal heat transfer coefficient Cb for the prototype building are 7.92

6.14

and 3.81 W/(m2?°C) at 0

10%

and 20% roof exhaust air ratios respectively. Cb is mainly influenced by the airflow characteristics

zonal division

and airflow pattern

whereas it is less affected by the roof exhaust method.

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