墙体材料热技术要求及非稳态热流下围护结构热稳定性分析

S. Egnatosyan, M. Badalyan, N. Egnatosyan
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引用次数: 1

摘要

本文主要研究以玻璃颗粒多孔填料(发泡玻璃颗粒混凝土)、矿棉垫等更高效的轻质混凝土替代传统墙体材料,降低建筑材料生产和建筑运行中的能耗问题,并对具有非稳态热流的围护结构的热稳定性进行分析。由于经济中市场关系的发展导致所有类型能源载体的价格大幅上涨,人们不仅关注提供小气候的系统的能源效率,还关注基本建设的效率。亚美尼亚采用了形状合适的凝灰岩作为墙体材料,这种材料是通过机械锯切从岩体中获得的,在现代建筑中,由于建筑围护结构的热技术要求变得更加严格,这种方法变得无效。在岩石开采过程中,积累了大量的废弃物,这些废弃物具有宝贵的性能,由于其活性,可以作为获取建筑材料的原料,根据节能方案进行开采。审议了这些废物的处置问题,从经济和环境的角度来看,这些废物都是非常重要的。鉴于建筑材料、产品和结构占建筑成本50÷60%,选择节能环保的建筑材料将大大降低建筑成本,降低运营成本。无熟料粘结剂是在无水泥混凝土的基础上,利用岩石的固有活性,结合节能技术研制而成的。本文对一些发达国家围护结构的热技术要求和建筑的节能分类进行了分析。提高亚美尼亚建筑能源效率的方法考虑到采暖季节的持续时间,所需的热阻范围从1.8到4.6 (m2oC) /W。鉴于亚美尼亚气候条件的特殊性,不可能仅以热阻指标来限制,必须考虑到材料的吸热性、热稳定性和热惯性。通过计算发现,在结构施工中,矿棉垫的温度波动最小,atτ =0.167°C,泡沫玻璃颗粒上混凝土的温度波动最大,atτ =0.381°C,此外,外部空气温度的变化不会立即影响结构内表面温度的变化。由于泡沫玻璃颗粒上的混凝土与矿棉上的垫子之间的时间偏差为7.16小时- 8.44小时。
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Thermal Technical Requirements for Wall Materials and Analysis of Thermal Stability of Enclosing Structures under Non-Stationary Heat Flow
The article is devoted to the problem of reducing energy consumption in the production of building materials and the operation of buildings by replacing the traditional wall material with more efficient material such as lightweight concrete based on the porous filler of glass granulate (foamed glass granulate concrete) and mineral wool mats, as well as the analysis of the thermal stability of enclosing structures with non-stationary heat flow. Much attention is paid not only to the energy efficiency of systems providing microclimate but also to the efficiency of capital construction, since the development of market relations in the economy has led to a significant increase in the prices for all types of energy carriers. The right shape tuff has been applied in Armenia for the wall material, obtained by sawing mechanically from a rock mass, which in modern construction becomes ineffective, as the thermal technical requirements for building envelopes have become tougher. During the mining of the rock, huge amount of wastes have been accumulated that have valuable properties and can serve as raw materials for obtaining building materials according to energy-saving schemes because of their activity. The issue of disposal of these wastes, which are of great importance both from an economic and environmental point of view, is considered. Given that building materials, products and structures account for 50÷60% of construction costs, the choice of energy-efficient, environmentally friendly building materials will significantly reduce construction costs and lower operating costs. Clinker-free binders have been developed on the basis of cement-free concrete of cellular and conjoint structure using the inherent activity of the rock and by means of energy-saving technologies. In these article thermal technical requirements for enclosing construction in some developed countries and the classification of buildings in terms of energy saving are considered. The ways to improve the energy efficiency of buildings in Armenia are considered taking into account the duration of the heating season with the thermal resistance required ranges from 1.8 to 4.6 (m2oC) /W. In the view of the peculiarities of climatic conditions in Armenia it is not possible to limit only by indicators of thermal resistance, it is necessary to take into account the heat absorption, thermal stability and thermal inertia of materials. Based on the calculations found that in the structure of construction the lowest fluctuation in temperature takes place with mineral wool mat Aτ=0.167°C, and the largest - concrete on foam glass granulate Aτ=0.381 °C, in addition, a change in the temperature of the outside air does not immediately affect the change in temperature on the inner surface of the structures, since there is a time deviation between a concrete on foam-glass granulate which is 7.16 hours and mats on mineral wool - 8.44 hours.
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