Pathways to plus-energy buildings in Algeria: design optimization method based on GIS and multi-criteria decision-making

Charafeddine Mokhtara, Belkhir Negrou, Noureddine Settou, Abderrahmane Gouareh, Belkhir Settou
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引用次数: 26

Abstract

In recent years, net zero or plus-energy buildings (PEB) have been widely analyzed and discussed for their benefits of increasing energy savings and reducing greenhouse gas emissions. A successful transition to energy-efficient buildings must, however, develop an efficient method that examines technical, economic, environmental and social criteria. In this paper, a method for design optimization based on spatial analysis combined with multi-criteria decision-making was proposed for achieving plus-energy buildings in Algeria. To apply the proposed method, a single family residential building was chosen. First, the annual energy consumption of the building at 40 locations was evaluated and the results are then interpolated for the whole country. The best energy efficiency measures and renewable energy are then chosen using the Analytic Hierarchy Process (AHP) method. Finally, energy balance and spatial analysis were carried out based on the geographical information system. The results showed the energy plus target was achieved in large parts of the country using a high-performance envelope, more efficient appliances and solar energy (solar photovoltaic and thermal). In addition, the southern provinces, mainly Adrar, Tindouf, Bechar, Ouargla, and Illizi, have identified the most suitable areas for setting up new buildings with an energy-plus target. In addition, applying the method will reduce the overall energy demand by 43 % and reduce GHG emissions in the country by around 23 % by 2030. Therefore, the method will have a significant impact on sustainability locally and worldwide.

阿尔及利亚节能建筑路径:基于GIS和多准则决策的设计优化方法
近年来,净零能耗或净零能耗建筑(PEB)因其增加节能和减少温室气体排放的好处而受到广泛的分析和讨论。然而,要成功地过渡到节能建筑,必须开发一种有效的方法,审查技术、经济、环境和社会标准。本文提出了一种基于空间分析与多准则决策相结合的设计优化方法,以实现阿尔及利亚的多能耗建筑。为了应用所提出的方法,选择了一个单户住宅建筑。首先,评估了40个地点的建筑年能耗,然后将结果内插到全国范围内。然后使用层次分析法(AHP)选择最佳的能源效率措施和可再生能源。最后,基于地理信息系统进行能量平衡和空间分析。结果表明,通过使用高性能外壳、更高效的电器和太阳能(太阳能光伏和热能),该国大部分地区实现了能源+目标。此外,南部省份,主要是阿德拉尔、廷杜夫、贝查尔、瓦尔格拉和伊利齐,已经确定了最适合建立具有能源+目标的新建筑的地区。此外,到2030年,应用该方法将使该国的总能源需求减少43%,温室气体排放量减少约23%。因此,该方法将对当地和全世界的可持续性产生重大影响。
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