Experimental study of the passive and active performance of real-scale composite PCM room in winter

相变材料 复合数 换气 热的 热舒适性 相变 材料科学 被动房 比例(比率) 气象学 环境科学 复合材料 工程类 地理 电气工程 高效能源利用 工程物理 通风(建筑) 地图学
作者
Erlin Meng,Ruonan Cai,Zhiyi Sun,Jiaying Yang,Junqi Wang
出处
期刊:Applied Thermal Engineering [Elsevier BV]
卷期号:185: 116418-116418 被引量:10
标识
DOI:10.1016/j.applthermaleng.2020.116418
摘要

Composite phase change material (PCM) room was to place two PCMs with different phase change temperature on different walls of the room. It was proved to be effective in improving the indoor thermal environment of passive small-scale (1 m × 1 m × 1 m) buildings located in hot-summer and cold-winter regions of China. However, thermal performance of the composite PCM room should be deeply studied in passive and active real-scale rooms. Two real-scale (2 m × 1.5 m × 2.7 m) and identical rooms were built in Suzhou China. Three cases of experiment were done. Case 1 was passive experiment. Case 2 represented the condition when the A/C was turn on only during the day. Case 3 was that the A/C was turn on only at night. The results show that the PCM room had a temperature drop of 2.9–7.3 °C during the day and a temperature rise of 0.5–4 °C at night compared to the ordinary room in case 1. When the A/C was set to 17 °C, 19 °C and 21 °C in case 2, after the A/C was turned off, the indoor air temperature of the PCM room was 0.3–2.5 °C, 0.6–2.8 °C and 1.1–5.7 °C higher than that of ordinary room. The values were 0–2.4 °C, 0–3.3 °C and 0.3–2.8 °C in case 3. The energy saving rate was 3.5% when the setting temperature was 17 °C in case 2, the value was 5.2% and 6.4% when the setting temperature was 17 °C and 19 °C in case 3. However, for other setting temperatures in case 2 and case 3, the PCM room consumed more energy than ordinary room. This research will give support to the suitable operation of the A/C system of the PCM room.

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