石蜡/膨胀珍珠岩基相变储能砂浆调温性能的研究

头部文案

发布时间：2020-01-06 00:00:00

全国建材科技期刊
全国中文核心期刊
中国科技论文统计源期刊
万方数据-数字化期刊群入网期刊
中国学术期刊（光盘版）全文收录期刊

华东地区优秀科技期刊
江苏省期刊方阵“双效期刊”
中国期刊网全文收录期刊
中国科技期刊数据库全文收录期刊



石蜡/膨胀珍珠岩基相变储能砂浆调温性能的研究

Study on Thermal Control Effects of Paraffin/Expanded Perlite Phase Change Energy Storage Mortar

２０15年第3期

石蜡/膨胀珍珠岩；相变水泥砂浆板；调温性能

Paraffin/expanded perlite; PCM cement mortar board; Thermal control effect

２０15年第3期

1000-4637（2015）03-62-04

四川省教育厅项目（132A0159）

柯倩倩，李玉香，朱晓燕，马雪，吴江，张俊

西南科技大学四川省非金属复合与功能材料重点实验室，绵阳 621010）

柯倩倩，李玉香，朱晓燕，马雪，吴江，张俊

浏览量:

1000

摘要：研究了石蜡/膨胀珍珠岩基相变水泥砂浆板的力学性能及导热系数，测定了不同制备方式的石蜡/膨胀珍珠岩基相变水泥砂浆板对房屋模型室温的调控性能。结果表明：相对于普通水泥砂浆，石蜡/膨胀珍珠岩基相变水泥砂浆具有良好的调温性能，可以有效降低室内的温度波动和减小最大温度值，达到建筑节能的目的。插层法的调温性能优于混掺法，且相变材料掺量越大，调温效果越明显。 Abstract：The mechanical properties and thermal conductivity of paraffin/expanded perlite matrix phase change cement mortar board are researched, and the thermal control effect of housing model indoor temperature of the cement mortar boards prepared by different ways are measured. The results indicate that paraffin/expanded perlite composite PCM cement mortar boards have lower heating rate and cooling rate; the maximum temperature and the minimum temperature are much higher than those of ordinary cement mortar boards. Composite PCM cement mortar boards have good thermal control effect, which makes the advanced maximum temperature time postponed and has a good effect of the thermostat. And the larger amount of PCM of the incorporation, the more obvious effect. Energy-saving effect of the composite PCM cement mortar boards prepared by lamination interpolation method is better than that of the boards by direct mixing. Results can provide the basis for the application of the composite PCM cement mortar boards in the building energy efficiency.

英文名 : Study on Thermal Control Effects of Paraffin/Expanded Perlite Phase Change Energy Storage Mortar

刊期 : ２０15年第3期

关键词 : 石蜡/膨胀珍珠岩；相变水泥砂浆板；调温性能

Key words : Paraffin/expanded perlite; PCM cement mortar board; Thermal control effect

刊期 : ２０15年第3期

DOI :

文章编号 : 1000-4637（2015）03-62-04

基金项目 : 四川省教育厅项目（132A0159）

作者 : 柯倩倩，李玉香，朱晓燕，马雪，吴江，张俊

单位 : 西南科技大学四川省非金属复合与功能材料重点实验室，绵阳 621010）

柯倩倩，李玉香，朱晓燕，马雪，吴江，张俊





摘要

参数

结论

参考文献

引用本文

Abstract：The mechanical properties and thermal conductivity of paraffin/expanded perlite matrix phase change cement mortar board are researched, and the thermal control effect of housing model indoor temperature of the cement mortar boards prepared by different ways are measured. The results indicate that paraffin/expanded perlite composite PCM cement mortar boards have lower heating rate and cooling rate; the maximum temperature and the minimum temperature are much higher than those of ordinary cement mortar boards. Composite PCM cement mortar boards have good thermal control effect, which makes the advanced maximum temperature time postponed and has a good effect of the thermostat. And the larger amount of PCM of the incorporation, the more obvious effect. Energy-saving effect of the composite PCM cement mortar boards prepared by lamination interpolation method is better than that of the boards by direct mixing. Results can provide the basis for the application of the composite PCM cement mortar boards in the building energy efficiency.

关键词:

石蜡/膨胀珍珠岩；相变水泥砂浆板；调温性能

扫二维码用手机看

[1] X. F. Kong, S. L. Lu, P. Gao, N. Zhu, W. Wu, X. M. Gao. Research on the energy performance and indoor environment quality of typical public buildings in the tropical areas of China [J]. Energy and Buildings2012,48:155-167.

[2] X. F. Kong, S. L. Lu, Y. Wu. A review of building energy efficiency in China during “Elecenth Five-Year Plan” petiod [J]. Energy Policy, 2012,41:624-635.

[3] Kinga Pielichowska, Krzysztof Pielichowski. Phase change materials for thermal energy storage [J]. Progress in Materials Science,2014,65:67-123.

[4] N.Soares, J.J.Costa,A.R Gaspar, P.Santos, Review of passive PCM latent heat thermal energy storage systems towards buil-dings, energy efficiency[J].Energy and Buildings,2013,59:82-103.

[5] F. Kuznik, D. David, K. Johannes, J. J. Roux. A review on phase change materials integrated in building walls[J]. Renewable and Sustainable Energy Reviews,2011,15(1):379-391.

[6] Inaba H, Tu P. Evaluation of thermophysical characteristics on shape-stabilized paraffin as a solid-liquid phase change material [J].Heat and Mass Transfer,1997,32(4):307.

[7] A. Karaipekli, A. Sarl.Capric-myristic acid/expanded perlite composite as formstable phase change material for latent heat thermal energy storage[J].Renew. Energy,2008,33:2599-2605.

[8] T. Nomura, N. Okinaka, T. Akiyama. Impregnation of porous material with phase change material for thermal energy storage[J]. Mater. Chem. Phys,2009,115:846-850.

[9] Nagano K, Takeda S, Mochida T, et al. Study of a floor supply air conditioning system using granular phase change material to augment building mass thermal storage-heat response in small scale experiments[J]. Energy Build,2006,38(5):436.

[10] Ahmet Sarl ,Cemil Alkan, et al. Prepatation, characterization and thermal proprtis of styrene malefic anhydride copolymer (SMA)/fatty ccid composits as form stable phase change materials[J]. Enrgy Convrsion Management, 2008,49:377.

[11] 中国国家标准化管理委员会.GB/T 20473-2006 建筑保温砂浆[S].北京：中国标准出版社2007.

[12] 中华人民共和国住房和城乡建设部.JGJ/T 70-2009 建筑砂浆基本性能试验方法标准[S].北京：中国建筑工业出版社，2009.

上一个

机制砂湿拌抹灰砂浆研究与生产应用

下一个

玻化微珠复合混凝土等效导热系数研究

头部文案

石蜡/膨胀珍珠岩基相变储能砂浆调温性能的研究

相关文件