Thermal comfort in traditional buildings composed of local and modern construction materials

D.G. Leo Samuel , K. Dharmasastha , S.M. Shiva Nagendra , M. Prakash Maiya
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引用次数: 70

Abstract

In recent years, there is a renewed interest towards the passive cooling features of ancient building architectures, which are cost effective, eco-friendly and best suited for the local climate. On the other hand, the modern construction materials, such as cement and steel, are highly durable. Thermal comfort of eight vernacular buildings that use modern construction materials to improve the structural durability was monitored in July 2014. The buildings are located in Hyderabad, India. They have many passive cooling features that include air cavities in the structures to reduce heat transfer, high thermal mass to reduce temperature fluctuation and induced ventilation to remove heat from the indoor. All the passive cooling features investigated were found to have an appreciable influence on the thermal comfort of the indoor space. The ventilated air gaps in the roof reduced the average temperature of the roof interior surface by 1.2 °C. The diurnal temperature fluctuation of the indoor air reduced by 0.9 °C in a building with a higher thermal mass compared to a building with thin walls and roof. All the eight buildings were found to be comfortable most of the time with a slight discomfort during late night and morning hours. The maximum CO2 recorded was 550 ppm. This indicates that the buildings were adequately ventilated.

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由当地和现代建筑材料组成的传统建筑的热舒适
近年来,人们对古建筑的被动冷却功能重新产生了兴趣,这种功能具有成本效益,环保且最适合当地气候。另一方面,现代建筑材料,如水泥和钢铁,具有很高的耐用性。2014年7月,对八座使用现代建筑材料提高结构耐久性的乡土建筑进行了热舒适监测。这些建筑位于印度海得拉巴。它们具有许多被动冷却功能,包括结构中的空气腔以减少热量传递,高热质量以减少温度波动和诱导通风以从室内排出热量。研究发现,所有被动式冷却特性对室内空间的热舒适都有明显的影响。屋顶的通风气隙使屋顶内表面的平均温度降低了1.2℃。与薄壁薄屋顶建筑相比,高热质量建筑的室内空气日温度波动降低了0.9°C。所有八栋建筑在大部分时间都是舒适的,在深夜和早晨有轻微的不适。记录到的最大二氧化碳浓度为550 ppm。这表明建筑物通风良好。
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