Evaluation of phase change materials for thermal regulation enhancement of building integrated photovoltaics

A. Hasan; S.J. McCormack; M.J. Huang; B. Norton

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Evaluation of phase change materials for thermal regulation enhancement of building integrated photovoltaics

机译：评估相变材料以增强建筑集成光伏的热调节

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Regulating the temperature of building integrated photovoltaics (BIPV) using phase change materials (PCMs) reduces the loss of temperature dependent photovoltaic (PV) efficiency. Five PCMs were selected for evaluation all with melting temperatures ～25 ± 4 ℃ and heat of fusion between 140 and 213 kJ/kg. Experiments were conducted at three insolation intensities to evaluate the performance of each PCM in four different PV/PCM systems. The effect on thermal regulation of PV was determined by changing the (ⅰ) mass of PCM and (ⅱ) thermal conductivities of the PCM and PV/PCM system. A maximum temperature reduction of 18 ℃ was achieved for 30 min while 10 ℃ temperature reduction was maintained for 5 h at-1000 W/m~2 insolation.

机译：使用相变材料（PCM）调节建筑物集成光伏（BIPV）的温度可减少与温度相关的光伏（PV）效率的损失。选择了五个PCM进行评估，所有PCM的熔化温度均为〜25±4℃，熔化热为140至213 kJ / kg。在三种日照强度下进行了实验，以评估每种PCM在四种不同PV / PCM系统中的性能。通过改变PCM的质量和PCM和PV / PCM系统的导热率，可以确定对PV热调节的影响。在1000 W / m〜2的日照下，最高降温30分钟达到30℃，而降温10℃保持5 h。

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来源
《Solar Energy》 |2010年第9期|p.1601-1612|共12页
作者
A. Hasan; S.J. McCormack; M.J. Huang; B. Norton;
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作者单位

Dublin Energy Lab., Focas Institute, School of Physics, Dublin Institute of Technology, Kevin St., Dublin 8, Ireland;

rnDepartment of Civil, Structure and Environmental Engineering, Trinity College Dublin, Dublin 1, Ireland;

rnCentre for Sustainable Technologies, University of Ulster, Newtownabbey, N. Ireland, BT370QB, UK;

rnDublin Energy Lab., Focas Institute, School of Physics, Dublin Institute of Technology, Kevin St., Dublin 8, Ireland;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
phase change materials (PCM); building integrated photovoltaics (BIPV); thermal regulation enhancement;

机译：相变材料（PCM）;建筑集成光伏（BIPV）;热调节增强;

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专利

1. Thermal regulation of building-Integrated photovoltaics using phase change materials [J] . M. J. Huang, P. C. Eames, B. Norton International Journal of Heat and Mass Transfer . 2004,第12a13期

机译：使用相变材料的建筑集成光伏的热调节
2. Thermal regulation of building-integrated photovoltaics using phase change materials [J] . M.J. Huang, P.C. Eames, B. Norton International Journal of Heat and Mass Transfer . 2004,第12a13期

机译：使用相变材料对建筑一体化光伏进行热调节
3. Using Taguchi-Fibonacci search method to optimize phase change materials enhanced buildings with integrated solar photovoltaic thermal collectors [J] . Lin Wenye, Ma Zhenjun Energy . 2016,第jula1期

机译：使用Taguchi-Fibonacci搜索方法来优化相变材料，并通过集成太阳能光伏集热器增强建筑物
4. Thermal Regulation of Building-Integrated Concentrating Photovoltaic System using Phase Change Material [C] . Idris Al Siyabi, Shivangi Sharma, Tapas K. Mallick, International Conference on Concentrator Photovoltaic Systems . 2016

机译：使用相变材料的建筑集成浓缩光伏系统的热调节
5. Integration of phase change materials in commercial buildings for thermal regulation and energy efficiency. [D] . Malekzadeh, Fatemeh Malek. 2015

机译：将相变材料集成到商业建筑中以实现热调节和能源效率。
6. Design of Eutectic Hydrated Salt Composite Phase Change Material with Cement for Thermal Energy Regulation of Buildings [O] . Niuniu Wu, Lijie Liu, Zhiwei Yang, 2021

机译：用水泥进行共晶水合盐复合相变材料的设计用于建筑物热能调节
7. Evaluation of phase change materials for thermal regulation enhancement of building integrated photovoltaics [O] . A. Hasan, S.J. McCormack, M.J. Huang, 2010

机译：综合光伏热调节相变材料评价
8. Theoretical and Experimental Thermal Performance Analysis of Building Shell Components Containing Blown Fiberglass Insulation Enhanced with Phase-Change Material (PCM). [R] . Kosny, J., Shrestha, S., Bianchi, M., 2010

机译：含相变材料（pCm）增强玻璃纤维隔热材料的建筑外壳组件的理论和实验热性能分析。

Evaluation of phase change materials for thermal regulation enhancement of building integrated photovoltaics

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