The Effect of Thermal Insulation on Building Energy Efficiency in Turkey

IF 1 4区 工程技术 Q4 ENERGY & FUELS Proceedings of the Institution of Civil Engineers-Energy Pub Date : 2022-03-11 DOI:10.1680/jener.21.00053
Asiye Aslan
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引用次数: 2

Abstract

In light of current energy problems, building envelopes must achieve thermal comfort in buildings by consuming the least possible amount of energy, and thermal insulation in building envelopes helps to minimise energy consumption. This study determined the optimum insulation thickness of external walls, ceilings and floors of buildings as well as energy-saving and payback periods in 81 city centres in Turkey. The calculations were performed for commonly used walls, ceilings and floor constructions. The life cycle cost analysis and TS 825 standard (Thermal Insulation Requirements in Buildings) were also considered. In the calculations, the decreasing factor applied in TS 825 for surfaces that have no contact with outer air was considered. The results showed that the optimum insulation thickness of the external walls, ceilings and floors ranged between 3.5 and 20.0, 4.6 and 19.7 and 0.7 and 14 cm, respectively, depending on the type of energy and insulation material used. These findings suggest the possibility of saving up to 75% energy on the external walls, 90% on the ceilings, and 85% on the floors. Additionally, a saving of 12%–13% is likely obtainable in Turkey's total energy consumption when the optimum insulation thickness is applied to all residential buildings in the country.
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保温对土耳其建筑节能的影响
鉴于目前的能源问题,建筑围护结构必须通过消耗尽可能少的能源来达到建筑物的热舒适,而建筑围护结构的隔热有助于减少能源消耗。本研究确定了土耳其81个城市中心建筑物外墙、天花板和地板的最佳隔热厚度以及节能和投资回收期。对常用的墙壁、天花板和地板结构进行了计算。还考虑了生命周期成本分析和TS 825标准(建筑物隔热要求)。在计算中,考虑了TS 825中应用于不与外部空气接触的表面的减小因子。结果表明,根据能源类型和保温材料的不同,外墙、顶棚和地板的最佳保温厚度分别为3.5 ~ 20.0 cm、4.6 ~ 19.7 cm和0.7 ~ 14 cm。这些发现表明,外墙节能75%,天花板节能90%,地板节能85%的可能性。此外,如果将最佳隔热厚度应用于土耳其的所有住宅建筑,则土耳其的总能耗可能节省12%-13%。
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
CiteScore
3.00
自引率
18.20%
发文量
35
期刊介绍: Energy addresses the challenges of energy engineering in the 21st century. The journal publishes groundbreaking papers on energy provision by leading figures in industry and academia and provides a unique forum for discussion on everything from underground coal gasification to the practical implications of biofuels. The journal is a key resource for engineers and researchers working to meet the challenges of energy engineering. Topics addressed include: development of sustainable energy policy, energy efficiency in buildings, infrastructure and transport systems, renewable energy sources, operation and decommissioning of projects, and energy conservation.
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