机构地区:[1]青海大学新能源光伏产业研究中心,西宁810016
出 处:《农业工程学报》2016年第20期209-216,共8页Transactions of the Chinese Society of Agricultural Engineering
基 金:青海省国际合作资助项目(2014-HZ-820);青海省重点实验室发展专项资金(2014-Z-Y31;2015-Z-Y02)
摘 要:该文研究芒硝基相变储能材料相变性能及其在青藏高原地区冬季简易温室的保温效果,采用物理法制备芒硝基复合相变储能材料,通过温度-时间曲线、差示扫描量热法(differential scanning calorimetry,DSC)和热常数分析仪(Hot Disk)等方法表征了材料性质。当添加成核剂硼砂质量分数为4%时,芒硝基复合相变材料的过冷度消失,添加增稠剂羧甲基纤维素钠质量分数1.5%时,芒硝基复合相变材料相分层现象基本消失,添加导热剂石墨粉质量分数为1%时,复合相变材料导热系数为1.0216 W/(m·K),材料相变潜热为127 k J/kg,放热峰值为15.4℃,同时经过300次相变循环,材料仍旧能保持较好的相变性能。芒硝基复合相变材料模拟在温室升温试验中表明:当芒硝基相变材料添加量为25、35和45 kg时清晨日出前最低温度可以提高1、3.6和4.4℃。分析相变材料温室石膏后墙结果表明:正午最高温度分别降低1.1、2.2和3.0℃,清晨日出前最低温度分别提高0.4、2.4和4.0℃。综合试验表明,该芒硝基复合相变材料适用于高寒气候环境下简易温室。Thermal energy storage(TES) is considered as one of the most important energy storage methods, and it can reduce the imbalance between solar heat supply and consumption and help to save costs. The phase change materials(PCMs) are the materials storing and releasing latent heat during the phase change. Low temperature PCMs are widely used in greenhouse study. Glauber salt(Na SO4·10H2O) based composite PCMs affect the greenhouse temperature change directly and their phase change temperature is suitable for greenhouse application, but the problems of supercooling phase separation and low thermal conductivity exist in their application. Related studies have showed that borax is the best substance which can decrease the supercooling problem, and CMC(RnOCH2COONa) is effective to reduce their phase separation. In order to enhance its thermal conductivity, we chose graphitic material as the heat-removing agent. In this paper, we studied the properties of Glauber salt based phase change energy storage material and it's performance of heat storage in winter in the Qinghai-Tibet Plateau region. Firstly, we prepared the Glauber salt based composite PCMs in laboratory, and then their thermal properties were measured by the differential scanning calorimetry(DSC). Samples were put in an alumina pan and heated from-10 to 40 ℃ at a rate of 1.0 ℃/min in purified nitrogen atmosphere(50 mL /min). The thermal cycling tests were carried out in an oven(Themo SCIENTIFIC HAAKE A 40) by heating and cooling the samples from 10 to 40 ℃ repeatedly. Thermal conductivities were determined by the transient plane source(TPS) method(Hot Disk, TPS 2200). The tested simple solar greenhouse was located in Xining City, Qinghai Province(101°44' E, 36°43' N). It was 3.5 m long and 2.7 m wide. The wall included 5 cm flexible foam(polyurethane) and 20 cm gypsum brick, as well as 0.1 cm iron sheet. The test period was from December 20 th, 2015 to February 4th, 2016. The heat insulation sheet of th
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