Case study of wind-induced natural ventilation tower in hot and humid climatic conditions

2012 IEEE Business, Engineering & Industrial Applications Colloquium (BEIAC) Pub Date : 2012-04-07 DOI:10.1109/BEIAC.2012.6226047

L. C. Haw, O. Saadatian, A. H. Baharuddin, S. Mat, M. Y. Sulaiman, K. Sopian

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引用次数: 7

Abstract

This paper investigates the performance of a wind-induced natural ventilation tower through an empirical analysis in hot and humid climatic conditions. There are mainly two methods for inducing natural ventilation; namely stack ventilation and wind-induced ventilation. Due to the relatively lower difference between the indoor and outdoor temperature in hot and humid conditions, stack ventilation method alone is rendered insufficient to create desirable air flow between outdoor and indoor building environment to achieve comfort and indoor air quality for the building occupant. Hence, wind-induced ventilation method can be used to achieve the desired air flow rates and improve the indoor air quality for the building. This study revealed that at external wind speed of 0.1m/s, the aerodynamic inverted airfoil roof geometry on the wind-induced natural ventilation tower is able to generate extraction air flow rate of 10,000m3/h with average of 57 ACH to provide comfort and indoor air quality to the internal building environment in hot and humid climatic conditions.

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湿热气候条件下风致自然通风塔的实例研究

本文通过对湿热气候条件下风致自然通风塔的性能进行实证研究。诱导自然通风的方法主要有两种;即烟囱通风和风致通风。在湿热条件下，由于室内外温差较小，仅采用烟囱通风方式不足以在室内外建筑环境之间产生理想的气流，从而达到建筑居住者的舒适和室内空气质量。因此，采用风致通风的方法可以达到理想的空气流速，改善建筑物的室内空气质量。研究表明，在外界风速为0.1m/s时，风致自然通风塔上气动倒翼型屋顶几何形状可产生10000 m3/h的抽气流量，平均为57 ACH，可在湿热气候条件下为建筑内部环境提供舒适的室内空气质量。

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

2012 IEEE Business, Engineering & Industrial Applications Colloquium (BEIAC)

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