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蓄能型太阳能热泵用复合相变材料热性能分析
引用本文:吴薇,陈黎,王晓宇,顾敏芬,戴苏洲,孟志军. 蓄能型太阳能热泵用复合相变材料热性能分析[J]. 农业工程学报, 2017, 33(13): 206-212. DOI: 10.11975/j.issn.1002-6819.2017.13.027
作者姓名:吴薇  陈黎  王晓宇  顾敏芬  戴苏洲  孟志军
作者单位:1. 江苏省能源系统过程转化与减排技术工程实验室,南京师范大学能源与机械工程学院,南京 210042;2. 中国科学技术大学热科学和能源工程系,合肥,230027
基金项目:江苏省自然科学基金面上研究项目(BK20151549);江苏省太阳能技术重点实验室开放基金(JPKLSST201503)
摘    要:为了满足蓄能型太阳能热泵系统在不同季节太阳辐射强度下的储能需求,该文提出一种分季节蓄能型复合相变材料,可实现对太阳能的最大化利用。根据前期研究基础,以48#石蜡、62#石蜡和癸酸(capric acid,CA)配制了48/62和CA/62两种复合相变材料,对不同配比时复合材料的热性能分别进行了DSC试验和蓄热性能试验研究,结果表明不同配比复合材料的潜热和最高吸热峰对应温度均随着62#石蜡含量的增加呈现增大的趋势;复合相变材料的蓄热过程均分为固态显热蓄热、相变蓄热、液态显热蓄热3个阶段;CA/62复合相变材料DSC(differential scanning calorimeter)曲线出现了明显的2个固-液相变峰,其蓄热曲线中相变蓄热过程又分成2段,分别对应癸酸和62#石蜡的固-液相变过程。因此CA/62复合相变材料可用于蓄能型太阳能热泵系统实现分季节蓄能。

关 键 词:相变材料  蓄能  热效率  蓄能型太阳能热泵
收稿时间:2017-01-17
修稿时间:2017-05-30

Thermal performance analysis of composite phase change materials for energy storage solar heat pump
Wu Wei,Chen Li,Wang Xiaoyu,Gu Minfen,Dai Suzhou and Meng Zhijun. Thermal performance analysis of composite phase change materials for energy storage solar heat pump[J]. Transactions of the Chinese Society of Agricultural Engineering, 2017, 33(13): 206-212. DOI: 10.11975/j.issn.1002-6819.2017.13.027
Authors:Wu Wei  Chen Li  Wang Xiaoyu  Gu Minfen  Dai Suzhou  Meng Zhijun
Affiliation:1. Engineering Laboratory for Energy System Process Conversion and Emission Control Technology of Jiangsu Province, School of Energy and Mechanical Engineering, Nanjing Normal University, Nanjing 210042, China;,2. Department of Thermal Science and Energy Engineering, University of Science and Technology of China, Hefei 230027, China;,1. Engineering Laboratory for Energy System Process Conversion and Emission Control Technology of Jiangsu Province, School of Energy and Mechanical Engineering, Nanjing Normal University, Nanjing 210042, China;,1. Engineering Laboratory for Energy System Process Conversion and Emission Control Technology of Jiangsu Province, School of Energy and Mechanical Engineering, Nanjing Normal University, Nanjing 210042, China;,1. Engineering Laboratory for Energy System Process Conversion and Emission Control Technology of Jiangsu Province, School of Energy and Mechanical Engineering, Nanjing Normal University, Nanjing 210042, China; and 1. Engineering Laboratory for Energy System Process Conversion and Emission Control Technology of Jiangsu Province, School of Energy and Mechanical Engineering, Nanjing Normal University, Nanjing 210042, China;
Abstract:Abstract: Considering the different working modes and energy storage requirements of the energy storage solar heat pump system under solar radiation intensity of different seasons, this paper presents a kind of energy storage composite phase change materials with high and low phase change temperature, which can realize the seasonal maximum utilization of solar energy when filled in the collector of energy storage solar heat pump system. In summer, the solar radiation is strong in the daytime, the temperature inside the collector is high, and the composite phase change material in the collector can achieve relatively high phase change temperature and store energy. At night, the composite phase change material undergoes a solid-liquid phase change to release heat at a relatively high temperature. Since the temperature is high enough, the energy storage solar heat pump system uses this part of heat for heating water directly. Under winter conditions, the solar radiation is weak inthedaytime, the temperature inside the collector is low, and the composite phase change material in the collector stores heat at arelatively low phase change temperature. When releasingenergy at night, the composite phase change materials undergo a solid-liquid phase change to release heat at a relatively low temperature. Due to the insufficient temperature, the energy storage solar heat pump system uses this heat for producing hot water by operating the heat pump cycle. Therefore, it is necessary to prepare a kind of composite phase change material with two phase change temperatures for seasonal energy storage. According to previous research, two kinds of composite phase change materials 48#/62# paraffin and CA/62# paraffin were made up with 48# paraffin, 62# paraffin and capric acid (CA). The thermal performance of composite phase change materials for different ratios was studied, respectively. The phase change temperature, enthalpy and specific heat capacity of single phase change material and composite phase change material were determined by the American Diamond DSC thermal analyzer. The results indicated that in the processes of heating and cooling, the latent heat of phase change of 48# paraffin, 62# paraffin and capric acid (CA) were approximately equal, that was small under the cooling process. The DSC curve of CA/62 composite phase change material had two obvious solid-liquid phase change peaks. The latent heat and the temperature corresponding to the highest endothermic peak of composites phase change materials with different ratios all showed increasing trend with the increase of 62# paraffin ratio. Thermal storage performance experiments of the composite phase change materials with different compositions and ratios were conducted. The results indicated that the thermal storage process curves of the composite phase change materials were divided into three stages: Solid sensible thermal storage, phase change thermal storage and liquid sensible thermal storage. The phase change thermal storage process curve of the CA/62 # paraffin composite phase change material was divided into two segments, which correspond to the solid-liquid phase change process of capric acid and the solid-liquid phase change process of 62# paraffin. Therefore, CA/62 # paraffin composite phase change material can be used in energy storage solar heat pump system to achieve seasonal thermal storage.
Keywords:phase change materials   energy storage   thermal effect   solar heat pump
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