Thermal Energy Storage System Using a Technical Grade Paraffin Wax as Latent Heat Energy Storage Material

K. Kaygusuz, A. Sari
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引用次数: 64

Abstract

The objective of this study was to experimentally establish thermal energy storage (TES) performance using a technical grade paraffin wax as a phase change material (PCM) in a vertical concentric pipe-in-pipe latent heat storage system. The melting and solidification temperature range of the paraffin was found as 38°C–43°C and 36°C–42°C, respectively. These values were well in agreement with the values measured by differential scanning calorimetry (DSC) analysis. The inlet temperature and mass flow rate of the heat transfer fluid (HTF) were selected as experimental parameters. The radial and axial temperature distributions were determined during the heat charging and discharging processes of the PCM. The temporal temperature data showed that the relevant experimental parameters were more effective on the melting time than on the solidification time due to increased natural convection during the melting process. Furthermore, heat fraction during the charging and discharging processes of the PCM were established. Experimental results indicated that the heat charging fraction was affected by change in the relevant experimental parameters more during the heat charging than discharging processes of the PCM. Finally, it was concluded from the results that the investigated technical grade paraffin wax encapsulated in the annulus of the two vertical cylindrical pipes had good thermal energy storage performance and it is a suitable latent heat storage material for passive solar thermal energy storage applications.
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以工业级石蜡为潜热储能材料的蓄热系统
本研究的目的是利用工业级石蜡作为相变材料(PCM)在垂直同心管中潜热储热系统中实验建立储热(TES)性能。石蜡的熔化和凝固温度范围分别为38℃~ 43℃和36℃~ 42℃。这些数值与差示扫描量热法(DSC)分析的结果一致。选取换热流体的入口温度和质量流量作为实验参数。测定了PCM在充放热过程中的径向和轴向温度分布。时间温度数据表明,由于熔融过程中自然对流的增加,相关实验参数对熔化时间的影响比对凝固时间的影响更大。建立了PCM充放电过程的热分数。实验结果表明,在PCM充热过程中,相关实验参数的变化对充热分数的影响比对放热过程的影响大。结果表明,所研究的技术级石蜡包埋在两根垂直圆柱形管道的环空中,具有良好的蓄热性能,是一种适合被动式太阳能蓄热应用的潜热材料。
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