Numerical humidity assessment: analysis of the thermal performance of a residential building

Ciência e Natura Pub Date : 2023-12-01 DOI:10.5902/2179460x74572

Michele Soares Netto, Ruth da Silva Brum, Cesar Antonio Oropesa Avellaneda, Joseane da Silva Porto, Taís Pereira da Silva

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Abstract

The earth-air heat exchanger (EAHE) is a device where the external ambient air is blown to use the ground as a heat source, through buried ducts with the aid of low power fans, thus powering the energy consumed in the building. The air at the outlet of the ducts is heated in winter and cooled in summer, providing thermal comfort conditions for indoor environments. The goal of the extensive search in recent decades has been to find solutions that can improve a building’s thermal comfort in order to provide recommendations for the design of various devices utilized in the utilization of renewable energy sources. This work aims to evaluate the results found for humidity and air temperature in a building. The objective was to create a computational model that depicts practical operating circumstances for a building’s ground-to-ground heat exchangers. These evaluations were carried out by numerical simulation with the EnergyPlus software, for which a meteorological file was created. To examine the building’s behavior in various climates, the data are shown for two typical project days: one in the summer and one in the winter.

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湿度数值评估：住宅楼热性能分析

地-空气热交换器(EAHE)是一种利用低功率风扇将外部环境空气通过埋地管道吹到地面作为热源，从而为建筑物所消耗的能量提供动力的装置。风管出口的空气冬季加热，夏季冷却，为室内环境提供热舒适条件。近几十年来，广泛研究的目标是找到可以改善建筑物热舒适的解决方案，以便为利用可再生能源的各种设备的设计提供建议。这项工作旨在评估建筑物湿度和空气温度的结果。目的是创建一个计算模型，描述建筑物地对地热交换器的实际操作环境。这些评估是通过EnergyPlus软件的数值模拟进行的，并为此创建了一个气象文件。为了检查建筑在各种气候条件下的表现，数据显示了两个典型的项目日:一个在夏季，一个在冬季。

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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Ciência e Natura

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