Energy and cost savings of cool coatings for multifamily buildings in U.S. climate zones

IF 13 Q1 ENERGY & FUELS
Xiao Nie , Robert Flores , Jack Brouwer , Jaeho Lee
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引用次数: 0

Abstract

While cool coatings have recently received much attention for building applications, their impact on building energy consumption strongly depends upon climatic conditions. Herein we evaluate the energy, cost, carbon, and interior comfort impact of cool coatings applied to a residential multifamily building across 32 climate zones in the United States by applying advanced cool coating properties to established building energy models. The model not only considers promising cool coating properties based upon recent experiments but also an ideal cool coating. Our calculations show that the ideal cool coating can achieve annual cooling energy savings of up to 6.64 kWh/m2 (Phoenix, AZ), annual net utility cost savings up to $1.16/m2 (Brawley, CA), and net annual carbon emission savings up to 7.7 % (Phoenix, AZ). We also estimate the change in interior temperature for buildings without space cooling systems and show that cool coatings make buildings in the warmest climate zones in the U.S. without space cooling more comfortable by 30 % to 50 % on a cooling degree days basis. Using analysis of variance, we examine the statistical relationships between building performance metrics and climatic parameters. The presented methodology enables evaluation of cool coating application to buildings in various climate zones across the world.

美国气候区多户住宅建筑冷却涂层的节能与成本节约
虽然清凉涂料在建筑中的应用近来备受关注,但其对建筑能耗的影响在很大程度上取决于气候条件。在此,我们通过将先进的降温涂料特性应用到已建立的建筑节能模型中,对应用于美国 32 个气候带多户住宅建筑的降温涂料在能源、成本、碳排放和室内舒适度方面的影响进行了评估。该模型不仅考虑了基于最新实验的有前景的降温涂层特性,还考虑了理想的降温涂层。我们的计算结果表明,理想的冷却涂层每年可节省高达 6.64 kWh/m2 的制冷能耗(亚利桑那州凤凰城),每年可节省高达 1.16 美元/m2 的净水电成本(加利福尼亚州布劳利),每年可节省高达 7.7 % 的净碳排放(亚利桑那州凤凰城)。我们还估算了没有空间冷却系统的建筑物的室内温度变化,结果表明,在美国气候最温暖、没有空间冷却系统的地区,按降温度日计算,降温涂料可使建筑物的舒适度提高 30% 至 50%。通过方差分析,我们研究了建筑性能指标与气候参数之间的统计关系。所介绍的方法可以对全球不同气候区的建筑应用降温涂层进行评估。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Advances in Applied Energy
Advances in Applied Energy Energy-General Energy
CiteScore
23.90
自引率
0.00%
发文量
36
审稿时长
21 days
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