Effective energy consumption parameters in residential buildings using building information modeling.

IF 3.1 Q2 ENVIRONMENTAL SCIENCES
N. Amani, ABDULAMIR REZASOROUSH
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引用次数: 7

Abstract

Building information modeling can help in predicting the energy efficiency in future based on dynamic patterns obtained by visualization of data. The aim of this study was to investigate the effective parameters of energy consumption using BIM technology which can evaluate the buildings energy performance. First, three forms of general states in the building were modeled to evaluate the proposed designs in Autodesk Revit Software. Then, the main building form for energy modeling and analysis was selected. Autodesk Revit 2020 software was also used to obtain the results of climate data analysis and building energy consumption index. Finally, the most optimal mode was selected by examining different energy consumption modes. The results showed that the use of building information modeling technology in adjusting the parameters affecting energy consumption can save energy cost up to 58.23% in block D. Energy cost savings for block C and the western lobby were obtained as 51.03% and 43.05%, respectively. Based on energy use intensity, energy cost savings for blocks C, D, and the western lobby were estimated as 16.67%, 16.30%, and 11%, respectively. The results of parametric studies on alternative schemes of energy use intensity optimization showed that 16.30% savings could be achieved by the base building model in a 30-year time horizon. Therefore, it was concluded that optimization of energy consumption would reduce the environmental pollutants emission and contribute to preservation and sustainability of the environment.
基于建筑信息模型的住宅建筑有效能耗参数研究。
建筑信息建模有助于根据数据可视化获得的动态模式预测未来的能源效率。本研究的目的是利用BIM技术研究建筑能耗的有效参数,以评估建筑的能源性能。首先,对建筑中三种形式的一般状态进行建模,以评估Autodesk Revit软件中提出的设计。然后,选择了用于能量建模和分析的主要建筑形式。Autodesk Revit 2020软件还用于获得气候数据分析结果和建筑能耗指数。最后,通过考察不同的能源消耗模式,选择了最优模式。结果表明,利用建筑信息建模技术调整影响能耗的参数,D座可节约能源成本高达58.23%。C座和西大堂的能源成本分别节约51.03%和43.05%。根据能源使用强度,C、D和西部大堂的能源成本节约估计分别为16.67%、16.30%和11%。对能源使用强度优化备选方案的参数研究结果表明,在30年的时间范围内,基础建筑模型可以实现16.30%的节约。因此,得出的结论是,优化能源消耗将减少环境污染物的排放,有助于环境的保护和可持续性。
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
CiteScore
7.90
自引率
2.90%
发文量
11
审稿时长
8 weeks
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