[1]李 栋,胡宛玉,张成俊,等.相变玻璃围护结构蓄能特性及对室内热环境影响研究[J].西安建筑科技大学学报(自然科学版),2021,53(06):934-938.[doi:10.15986/j.1006-7930.2021.06.019 ]
 LI Dong,HU Wanyu,ZHANG Chengjun,et al.Energy storage characteristics of phase change glass envelope and its effect on indoor thermal environment[J].J. Xi'an Univ. of Arch. & Tech.(Natural Science Edition),2021,53(06):934-938.[doi:10.15986/j.1006-7930.2021.06.019 ]
点击复制

相变玻璃围护结构蓄能特性及对室内热环境影响研究()
分享到:

西安建筑科技大学学报(自然科学版)[ISSN:1006-7930/CN:61-1295/TU]

卷:
53
期数:
2021年06期
页码:
934-938
栏目:
出版日期:
2021-12-20

文章信息/Info

Title:
Energy storage characteristics of phase change glass envelope and its effect on indoor thermal environment
文章编号:
1006-7930(2021)06-0934-05
作者:
李 栋胡宛玉张成俊刘昌宇杨瑞桐
(东北石油大学 土木建筑工程学院,黑龙江 大庆 163318)
Author(s):
LI Dong HU Wanyu ZHANG Chengjun LIU Changyu YANG Ruitong
(School of Civil and Architecture Engineering, Northeast Petroleum University, Heilongjiang Daqing 163318)
关键词:
玻璃围护结构 相变材料 二氧化硅气凝胶 室内热环境 蓄能特性
Keywords:
glass envelope phase change material silica aerogel indoor thermal environment energy storage characteristics
分类号:
TU832; TK519
DOI:
10.15986/j.1006-7930.2021.06.019
文献标志码:
A
摘要:
玻璃围护结构蓄能特性直接影响其热工性能,其与材料本身有关.传统玻璃围护结构热惰性小、传热系数大特点,造成建筑能耗较大,并对室内热环境造成一定的影响.以玻璃围护结构蓄能特性调控为研究目标,建立了填充多种材料玻璃围护结构建筑热分析模型,分析了玻璃腔内置空气、二氧化硅气凝胶、相变材料对玻璃围护结构蓄能特性的影响,并研究了其对室内热环境的影响.研究发现:玻璃围护结构添加相变材料时蓄能和热惰性更强; 同填充二氧化硅气凝胶、空气相比,相同室内外环境条件下玻璃围护结构添加相变材料时内表面温度分别降低1.50 K和3.54 K,内表面峰值热流分别降低1.26 W·m-2和2.62 W·m-2; 玻璃围护结构添加相变材料能有效改善室内温度分布均匀性和室内热舒适性.
Abstract:
The thermal performance of glass envelope is directly affected by its energy storage characteristics, which depends on the properties of materials. Traditional glass envelope has the characteristics of small thermal inertia and large heat transfer coefficient, which leads to large building energy consumption and poor indoor thermal environment. Taking the regulation of energy storage characteristics as the research objective, a thermal analysis model of glass envelope building is established, and the influence of different materials including air, silica aerogel and phase change material on energy storage characteristics and indoor thermal environment is analyzed. The results show that the energy storage and thermal inertia are stronger when phase change materials are added to the glass envelope. Compared with glass envelope filled with silica aerogel and air, when phase change materials are added, the inner surface temperature decreases by 1.50 K and 3.54 K, respectively, and the peak heat flux on the inner surface decreases by 1.26 W·m-2 and 2.62 W·m-2, showing that glass envelope with phase change materials can effectively improve indoor temperature distribution uniformity and indoor thermal comfort.

参考文献/References:

[1] 王登甲, 吴航, 刘艳峰, 等. 孤立岛礁自持化光伏空调建筑能量平衡优化匹配研究[J].太阳能学报, 2020(7):105-112.
WANG Dengjia, WU Hang, LIU Yanfeng, et al. Research on optimal matching of energy balance of self-sustained PV air-conditioning building in isolated island[J]. Acta Energiae Solaris Sinica, 2020(7):105- 112.
[2]GONZáLEZ-JULIáN E, XAMáN J, MORAGA NO, et al. Annual thermal evaluation of a double pane window using glazing available in the Mexican market[J]. Applied Thermal Engineering, 2018, 143: 100-111.
[3]MORETTI E, ZINZI M, MERLI F, et al. Optical, thermal, and energy performance of advanced polycarbonate systems with granular aerogel[J]. Energy and Buildings, 2018, 166:407-417.
[4]ZHONG KC, LI SH, SUN GF, ET AL. Simulation study on dynamic heat transfer performance of PCM-filled glass window with different thermophysical parameters of phase change material[J]. Energy and Buildings,2015, 106: 87-95.
[5]JIANG W, LIU B, ZHANG X et al. Energy performance of window with PCM frame[J]. Sustainable Energy Technologies and Assessments,2021, 45: 1-9.
[6]JALAL M J, SALIH M S. Experimental and numerical investigation of paraffin wax as thermal insulator in a double glazed window[J]. Journal of Energy Storage,2021, 35:1-12.
[7]LI D, WU Y Y, WANG B C, et al. Optical and thermal performance of glazing units containing PCM in buildings: A review[J]. Construction and Building Materials, 2020, 233: 1-25.
[8]BHAMARE D K, RATHOD M K, BANERJRR J. Numerical model for evaluating thermal performance of residential building roof integrated with inclined phase change material(PCM)layer[J]. Journal of Building Engineering, 2020, 28:1-10.
[9]MORETTI E, BELLONI E, MERLI F, et al. Laboratory and pilot scale characterization of granular aerogel glazing systems[J]. Energy and Buildings, 2019, 202:1-15.
[10]BURATTI C, MORETTI E, ZINZI M. High energy-efficient windows with silica aerogel for building refurbishment: experimental characterization and preliminary simulations in different climate conditions[J]. Buildings, 2017, 7(1):1-12.
[11]MEMON Ali S. Phase change materials integrated in building walls: A state of the art review[J]. Renewable and Sustainable Energy Reviews, 2014, 31:870-906.
[12]ANNA W, DARIUSZ H. Modeling of thermal processes in a glazing structure with temperature dependent optical properties-An example of PCM-window[J]. Renewable Energy, 2020, 160:653-662.
[13]QIAN W, WU R, YU W, et al. Parametric analysis of using PCM walls for heating loads reduction[J]. Energy and Buildings, 2018, 172:65-72.
[14]ZHANG S, HU W Y,LI D, et al. Energy efficiency optimization of PCM and aerogel-filled multiple glazing windows[J]. Energy,2021, 222:119916.
[15]LI D, WU Y Y, ZHANG G J, et al. Influence of glazed roof containing phase change material on indoor thermal environment and energy consumption[J]. Applied Energy, 2018, 222:343-350.

相似文献/References:

[1]冷康鑫,于靖华,杨清晨,等.双层相变通风屋面的影响因素研究[J].西安建筑科技大学学报(自然科学版),2021,53(06):910.[doi:10.15986/j.1006-7930.2021.06.016 ]
 LENG Kangxin,YU Jinghua,YANG Qingchen,et al.Study on the influencing factors of double-layer phase change ventilation roof[J].J. Xi'an Univ. of Arch. & Tech.(Natural Science Edition),2021,53(06):910.[doi:10.15986/j.1006-7930.2021.06.016 ]

备注/Memo

备注/Memo:
收稿日期:2021-04-25修改稿日期:2021-11-09
基金项目:国家自然科学基金(52078110); 住房和城乡建设部科学技术项目计划(2020-K-186,2020-K-162)
第一作者:李 栋(1979-),男,博士,教授,主要从事建筑节能研究.E-mail: lidonglvyan@126.com

更新日期/Last Update: 2021-12-20