Study and Characterization of Thermal Comfort in a Desert Climate

Q3 Engineering

Advances in Systems Science and Applications Pub Date : 2019-07-02 DOI:10.25728/ASSA.2019.19.2.667

A. Oudrane, B. Aour

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Abstract

The main objective of this study, it is prose on the characterization of thermal comfort in the new habitable architectures located for a completely desert area. This numerical characterization is intended to determine the parameters that affect the thermal comfort for the occupants of these architectures in this region. To achieve this objective, a numerical model describing the thermal exchanges taking place in a model of a habitable envelope has been developed. This model is based on thermal balances established at the level eachwall of the habitat. The numerical models developed have been validated using climatic data recently measured in the renewable energy research unit of the Saharan medium at Adrar ‘’URER'MS‘’. A well detailed analysis of the some parameters that influence the thermal comfort in this architecture was raised and discussed. The fundamental equations governing thermal exchanges have been concretized by an implicit finite difference method, based on the nodal procedure. The system of algebraic equations obtained was solved by the iterativeGaussian method. The results of the numerical simulation have shown that the material currently used in the construction of this architecture of Adrar region, as well as the current climatological conditions, are the main causes of the thermal discomfort.

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沙漠气候下热舒适性的研究与表征

本研究的主要目的是对位于完全沙漠地区的新型宜居建筑的热舒适性进行表征。该数值表征旨在确定影响该区域内这些建筑的居住者的热舒适性的参数。为了实现这一目标，已经开发了一个描述宜居外壳模型中发生的热交换的数值模型。该模型基于在栖息地每一面墙的水平上建立的热平衡。所开发的数值模型已使用最近在Adrar“URER'MS”撒哈拉介质可再生能源研究单位测量的气候数据进行了验证。对影响该建筑热舒适性的一些参数进行了详细的分析和讨论。基于节点程序，采用隐式有限差分法具体化了控制热交换的基本方程。用迭代高斯方法求解了所得到的代数方程组。数值模拟结果表明，Adrar地区目前用于建造该建筑的材料以及当前的气候条件是造成热不适的主要原因。

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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来源期刊

Advances in Systems Science and Applications Engineering-Engineering (all)

CiteScore

1.20

自引率

0.00%

发文量

期刊介绍： Advances in Systems Science and Applications (ASSA) is an international peer-reviewed open-source online academic journal. Its scope covers all major aspects of systems (and processes) analysis, modeling, simulation, and control, ranging from theoretical and methodological developments to a large variety of application areas. Survey articles and innovative results are also welcome. ASSA is aimed at the audience of scientists, engineers and researchers working in the framework of these problems. ASSA should be a platform on which researchers will be able to communicate and discuss both their specialized issues and interdisciplinary problems of systems analysis and its applications in science and industry, including data science, artificial intelligence, material science, manufacturing, transportation, power and energy, ecology, corporate management, public governance, finance, and many others.