Study on the Factors Affecting in Situ Measurement of the Thermal Resistance of Building Elements

Bulletin of the Polytechnic Institute of Iași. Construction. Architecture Section Pub Date : 2021-12-01 DOI:10.2478/bipca-2021-0036

Sergiu George Petre, D. Isopescu, M. Pruteanu

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Abstract

Abstract A current global effort is being made in order to find solutions that will limit global warming. The building sector is responsible for the highest share of total energy consumption, which requires the continuous development of strategies to increase buildings energy efficiency. Considering the high share of emissions generated by buildings, improving buildings energy performance can significantly slow down global warming. A key point in developing strategies to reduce energy consumption and making more accurate forecasts of the evolution of global warming is to determine the actual energy consumption generated by the use of buildings, which in some cases may differ from the theoretical one. In order to determine the actual energy consumption, with high accuracy, determinations in situ of the thermal resistance of the building elements that form the envelope, are essential. The article presents the main methods for determining the thermal resistance of building elements in situ, factors influencing the accuracy of the results, and recommendations for the use of methods to reduce the risk of errors.

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影响建筑构件热阻现场测量的因素研究

当前全球正在努力寻找限制全球变暖的解决方案。建筑部门在总能源消耗中所占的份额最高，这就要求不断制定提高建筑能源效率的战略。考虑到建筑产生的高排放份额，提高建筑能源性能可以显著减缓全球变暖。制定减少能源消耗和对全球变暖的演变作出更准确预测的战略的一个关键点是确定建筑物使用所产生的实际能源消耗，在某些情况下，这可能与理论消耗不同。为了准确地确定实际能耗，必须对构成围护结构的建筑构件的热阻进行原位测定。本文介绍了原位测定建筑构件热阻的主要方法，影响结果准确性的因素，以及使用方法减少误差风险的建议。

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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Bulletin of the Polytechnic Institute of Iași. Construction. Architecture Section

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