Improving Energy Efficiency in a Building Using Passive Energy-Saving Measures

IF 1 Q4 ENGINEERING, CIVIL Journal of Applied Engineering Sciences Pub Date : 2023-12-01 DOI:10.2478/jaes-2023-0034
Simona Stanca
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Abstract

Abstract We are going through a time when environmental, economic and social concerns, intensely amplified by climate change, by the depletion of resources, are growing. In this context, setting targets such as reducing energy consumption in the buildings sector, energy efficiency, and the use of renewable energies are becoming a priority, both at national and international level. Improving the energy efficiency of the existing building stock is important, not only for achieving national medium-term energy efficiency targets, but also for meeting the long-term objectives of the strategy on climate change and the transition to a competitive low-carbon economy by 2050 (https://energy.ec.europa.eu/system/files/2014-11/2014_article4_ro_romania_0.pdf). Currently, the building is considered as a structure in a continuous evolution, which in time through maintenance, rehabilitation and modernization works will meet the requirements expressed by the user. The case study presented in the paper presents an analysis from the point of view of improving the energy efficiency, reducing the energy requirement in a building using passive energy-saving measures, that is, the additional thermal insulation of an element of the building envelope. The materials selected for this research are: expanded polystyrene, basaltic mineral wool and cellulose fibres.
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利用被动式节能措施提高建筑能效
我们正在经历一个环境、经济和社会问题日益严重的时代,气候变化和资源枯竭加剧了这些问题的严重性。在这种情况下,制定诸如减少建筑部门的能源消耗、能源效率和使用可再生能源等目标正在成为国家和国际一级的优先事项。提高现有建筑的能源效率不仅对实现国家中期能源效率目标很重要,而且对实现气候变化战略的长期目标以及到2050年向有竞争力的低碳经济过渡也很重要(https://energy.ec.europa.eu/system/files/2014-11/2014_article4_ro_romania_0.pdf)。目前,该建筑被认为是一个不断演变的结构,通过维护、修复和现代化工程,将及时满足用户表达的要求。本文提出的案例研究从提高能源效率的角度进行了分析,使用被动式节能措施,即建筑围护结构的额外保温,降低了建筑的能源需求。本研究选用的材料有:膨胀聚苯乙烯、玄武岩矿棉和纤维素纤维。
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自引率
9.10%
发文量
18
审稿时长
12 weeks
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