Surface heat transfer coefficients in building envelopes: Uncertainty levels in experimental methods

IF 1.8 4区 工程技术 Q3 CONSTRUCTION & BUILDING TECHNOLOGY
Roberto Garay-Martinez, B. Arregi, M. Lumbreras
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引用次数: 2

Abstract

There are several research methods for the on-site assessment of U-values that aim to avoid the use of surface heat flux measurements and rely on tabulated or empirically developed correlations to define this parameter. This works performs a detailed process to estimate indoor surface heat transfer coefficients based on several experimental campaigns over building walls. Data is filtered out to remove periods with large temperature variations and/or unstable convective conditions due to HVAC. A statistical analysis is conducted, and the outcomes used to test the validity of U-value estimation approaches. The outcomes show that the actual surface heat transfer coefficients are in the range of reference works, but variations in the range of up to 2 W/m2 K are found. Uncertainty levels associated to the estimation of surface heat transfer coefficient are in the range 60% for instantaneous values while this is reduced down to 12%–20% for 8-h averages. Variations and uncertainty levels are higher for low temperature gradient situations, which are considered to be very likely for modern insulation levels. It is concluded that methods seeking to avoid the use of surface heat flux measurements need to develop much deeper knowledge in this field to gain accuracy and reliability.
建筑围护结构表面传热系数:实验方法的不确定度
有几种现场评估u值的研究方法,其目的是避免使用表面热通量测量,而依靠制表或经验开发的相关性来定义该参数。这项工作执行了一个详细的过程,以估计室内表面传热系数基于几个实验运动在建筑墙壁上。数据被过滤掉,以去除大的温度变化和/或不稳定的对流条件,由于暖通空调。进行了统计分析,并将结果用于检验u值估计方法的有效性。结果表明,实际的表面换热系数在参考作品的范围内,但变化范围高达2 W/m2 K。对于瞬时值,与表面传热系数估计相关的不确定性水平在60%范围内,而对于8小时平均值,这一不确定性降低到12%-20%。对于低温梯度情况,变化和不确定性水平更高,这被认为很可能是现代绝缘水平。结论是,寻求避免使用表面热通量测量的方法需要在这一领域发展更深入的知识,以获得准确性和可靠性。
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
Journal of Building Physics
Journal of Building Physics 工程技术-结构与建筑技术
CiteScore
5.10
自引率
15.00%
发文量
10
审稿时长
5.3 months
期刊介绍: Journal of Building Physics (J. Bldg. Phys) is an international, peer-reviewed journal that publishes a high quality research and state of the art “integrated” papers to promote scientifically thorough advancement of all the areas of non-structural performance of a building and particularly in heat, air, moisture transfer.
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