RESEARCH OF ENERGY EFFICIENT SOLUTIONS FOR HEAT INSULATION OF CONSTRUCTIONS AND PIPELINES WITH AEROGEL

Iuliia Sokolan, Pavlo Maidan, Nataliia Mashovets
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Abstract

Ways of energy saving in buildings, namely compliance with the regulatory framework of European standards, possibilities to reduce heat losses during energy transportation through pipelines on the example of heating systems and reducing heat losses during the operation of buildings and structures are studied in the article. It was found that, despite the regular updates of the State Construction Norms of Ukraine, the coefficient of thermal conductivity of insulation materials is not brought into line with generally accepted European standards. The second part of the article presents the results of analytical studies of various thermal insulation materials that are widely used in the territory of Ukraine. After comparing the results, we concluded that the most common at this stage of development of insulation materials will not fully satisfy all the requirements, which must meet all the materials for insulation of structures. The use of some materials is impossible of thermal insulation of structures and pipelines with complex configuration. The solution of energy efficiency along with increasing soundproofing properties, reducing the fire hazard, reducing the load on the bearing structures of buildings and structures is possible through the use of aerogel as a thermal insulation material. The material is characterized by low dependence of the thermal conductivity coefficient on changes in ambient temperature, which makes it the best option for use in harsh operating conditions. After analytical studies of various insulating materials, it was found that aerogel in roll in addition to low coefficient of heat transfer is characterized by better operating properties, namely, non-combustibility of the material, environmental safety, light weight, which reduces the burden on the structure, ease of installation, the possibility of using the structures with high rate of sound insulation.
建筑和管道用气凝胶隔热节能解决方案的研究
本文研究了建筑节能的方式,即符合欧洲标准的监管框架,以供暖系统为例,通过管道减少能源运输过程中的热损失的可能性,以及减少建筑和结构运行过程中的热损失。调查发现,尽管乌克兰国家建筑规范定期更新,但保温材料的导热系数与普遍接受的欧洲标准不符。文章的第二部分介绍了在乌克兰境内广泛使用的各种保温材料的分析研究结果。经过对结果的比较,我们得出结论,现阶段最常见的保温材料将不能完全满足所有要求,而必须满足所有用于结构保温的材料。结构复杂的构筑物和管道的保温,有些材料是不可能使用的。通过使用气凝胶作为隔热材料,可以提高能源效率,增加隔音性能,减少火灾危险,减少建筑物和结构的承重结构的负荷。该材料的特点是导热系数对环境温度变化的依赖性较低,这使其成为在恶劣操作条件下使用的最佳选择。经过对各种隔热材料的分析研究,发现气凝胶在卷中除传热系数低外,还具有较好的使用性能,即材料的不燃性、环境安全性、重量轻,减轻了结构负担、安装方便、使用结构的可能性高、隔声率高。
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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