马来西亚空气井梯田住宅室内热性能的现场调查

Pub Date : 2019-08-29 DOI:10.11113/ijbes.v6.n3.388
P. C. Leng, Roshida Binti Abdul Majid, Noraslinda Abdul Rahman, D. Ossen, Farhana Mohd Razif
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引用次数: 1

摘要

本文旨在利用现有的单层平房全尺寸风井,确定风井系统在热带湿热气候下的性能。空气井在住宅建筑中的应用在传统建筑中得到了广泛的应用,特别是在中东和欧洲国家。然而,随着发展,空气井等被动冷却策略的应用逐渐被机械冷却系统所取代。这项研究的目的是调查热带地区的冷却系统作用,在热带地区,湿热的气候和建筑内部过热是一个关键的困境,因为太阳能通过建筑窗户渗透。在砂拉越古晋的一栋带内置空气井的单层梯田式房屋中进行了为期5天的实地测量。现场测量研究了热带环境下单层露台房屋空气井的热性能。使用U-12 HOBO温度和湿度数据记录器测量调查,同时使用HD32.3 DeltaOhm测量记录器测量空气速度。这两种类型的仪器都垂直放置在气井中,而另一个U12 HOBO数据记录器则放置在测试室中,窗户连接到气井。室外天气数据集采用HOBO U30进行测量。研究结果表明,在马来西亚热带气候下,整个测量日内气井诱导的平均风速为0.91m/s,而在测量日的最热时刻,室外气温为33.6°C,太阳辐射为198 Wh/m²,上层气井诱导的风速可达1.09m/s。研究结果解释了空气井在室内环境中提供热性能的有效性,并进一步研究了修改空气井配置可以提高气流和空气温度
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Field Investigation of Indoor Thermal Performance in Malaysia Air-Welled Terraced House
This paper aims to determine the performance of the air well system in a hot and humid tropical climate with existing full-scale air well of single-storey terraced house.  The application of air well in residential building widely applied in a traditional building, especially in the Middle East and Europe countries. However, resulted from the development, the application of passive cooling strategies such as air well is gradually replaced by a mechanical cooling system. The aim of the study is to investigate the cooling system role in tropics, where hot and humid climate the overheating of building interior are a critical dilemma due to solar penetration through building fenestration. A field measurement has been carried out in a single storey terraced house with built-in air well in Kuching, Sarawak for 5 days. The field measurement investigates the thermal performance of the single-storey terrace house air well under tropical context. The investigation was measured with U-12 HOBO data logger for temperature and humidity while the air velocity was measured with HD32.3 DeltaOhm measurement logger. Both types of the instrument placed in the air well in a vertical position while another U12 HOBO datalogger placed in a test room with window connected to air well.  The outdoor weather data set were measured with HOBO U30. Findings show that the under Malaysia tropical climate, the mean air velocity induced by the air well throughout the measurement days marked as 0.91m/s while during the hottest hour of the measurement days, the air velocity induced in the upper air well could reach 1.09m/s with an outdoor air temperature of 33.6°C and solar radiation of 198 Wh/m².  The findings of the study have explained the effectiveness of the air well in providing the thermal performance in the indoor environment and further study on modification of the air well configuration could enhance the airflow and air temperature
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