THERMAL ANALYSIS OF DIFFERENT CONFIGURATIONS FOR BUILDING INSULATION SYSTEMS WITH ACTUAL MATERIALS USING REAL SOLAR RADIATION AND TEMPERATURE DATA

Revista de Engenharia Térmica Pub Date : 1900-01-01 DOI:10.26678/abcm.encit2020.cit20-0574

Carlos A. Sá, M. Curi

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Abstract

Thermal insulation is present in several engineering areas, such as in civilconstruction, in industrial ovens, in satellites and launch vehicles and even indomestic applications, such as refrigerators. This work aims to presentmultilayer insulation for civil construction, thus reducing electrical energyexpenditure on air conditioning the environment and increasing thermalcomfort. To determine the heat flow through the wall, it was necessary tosolve the heat diffusion equation in rectangular Cartesian coordinates for eachinsulation layer, and the boundary conditions of each differential equationdepend on the neighboring layers, thus forming a system of equations. TheWolfram Mathematica computational software was used to solve themathematical equations. The heat flow was determined for the four seasonsof the year throughout the day for different configurations of thermalinsulation, varying the insulating material and its thickness. After analyzingthe results, it was possible to observe the great efficiency of the models withthermal insulation compared to traditional walls, making the internal wall'stemperature profile more constant throughout the day.

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利用真实太阳辐射和温度数据对实际材料建筑保温系统的不同配置进行热分析

隔热存在于几个工程领域，如民用建筑、工业烤箱、卫星和运载火箭，甚至在家庭应用中，如冰箱。本工作旨在为民用建筑提供多层隔热材料，从而减少空调环境的电能消耗，提高热舒适性。为了确定墙体的热流，需要求解每一层保温层的直角坐标下的热扩散方程，而每一个微分方程的边界条件依赖于相邻层，从而形成一个方程组。使用wolfram Mathematica计算软件求解数学方程。在不同的保温材料配置、不同的保温材料及其厚度下，确定了一年中的四个季节全天的热流。在分析结果之后，可以观察到与传统墙壁相比，隔热模型的效率很高，使内墙的温度剖面在一天中更加恒定。

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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Revista de Engenharia Térmica

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