约旦安曼的被动式住宅建筑设计

Q3 Earth and Planetary Sciences
Renad Wael Albadaineh
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引用次数: 0

摘要

在约旦,住宅部门占所有电力使用量的43%,占总能源使用量的21%。用于空间供暖和制冷的能源使用占住宅能源使用的60%以上。这座计算机生成的住宅是一座典型的约旦单层住宅,功能建筑面积为186平方米,位于安曼,通过采用翻新技术降低供暖和制冷需求,实现边际能源需求,并创造高质量的室内生活环境,使其更节能。为了达到本文所描述的被动设计房屋的理念,采用了各种被动设计策略和方法。使用DesignBuilder模拟软件、Revit建模软件、太阳能分析软件以及被动设计方法部署前后的总能耗评估,评估了每种改造方法的效果。研究结果表明,住宅供暖每年可节省约78%的能源,室内空气质量和温度与原来相比可显著提高。虚拟建筑中的总使用能源从每年56.57千瓦时/平方米减少到15.25千瓦时/平米。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Energy-passive residential building design in Amman, Jordan
In Jordan, the residential sector is responsible for 43% of all power use and 21% of total energy usage. The use of energy for space heating and cooling accounts for more than 60% of residential energy use. The computer-generated residence, a typical one-storey Jordanian home with a functional floor area of 186 m2, is located in Amman and was modelled to be more energy efficient by incorporating renovating techniques to lower heating and cooling demand, attain marginal energy demand, and produce a high-quality indoor living environment. To get at the idea of passive design houses as appropriately depicted in this paper, various passive design tactics and methodologies were employed. Using DesignBuilder simulation software, Revit modelling software, solar energy analysis software, and assessment of the total energy consumption before and after the deployment of passive design approaches, the effects of each retrofit method were evaluated. The results of this study show that the yearly energy savings for heating is about 78%, and the indoor air quality and temperature of the residence can be significantly enhanced compared to its original situation. The total employed energy in the virtual building was scaled down from 56.57 kWh/m2 to 15.25 kWh/m2 each year.
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来源期刊
Energetika
Energetika Energy-Energy Engineering and Power Technology
CiteScore
2.10
自引率
0.00%
发文量
0
期刊介绍: The journal publishes original scientific, review and problem papers in the following fields: power engineering economics, modelling of energy systems, their management and optimi­zation, target systems, environmental impacts of power engi­neering objects, nuclear energetics, its safety, radioactive waste disposal, renewable power sources, power engineering metro­logy, thermal physics, aerohydrodynamics, plasma technologies, combustion processes, hydrogen energetics, material studies and technologies, hydrology, hydroenergetics. All papers are re­viewed. Information is presented on the defended theses, vari­ous conferences, reviews, etc.
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