Bio-based and recycled-waste materials in buildings: A study of energy performance of hemp-lime concrete and recycled-polyethylene terephthalate facades for office facilities in France and Italy

Moussa Tala; Maalouf Chadi; Ingrao Carlo; Scrucca Flavio; Costantine Georges; Asdrubali Francesco

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Bio-based and recycled-waste materials in buildings: A study of energy performance of hemp-lime concrete and recycled-polyethylene terephthalate facades for office facilities in France and Italy

机译：建筑物中的生物和再生废料：法国和意大利办公室设施的大麻 - 石灰混凝土和再生聚乙烯对苯二甲酸酯的能量性能研究

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Global environmental issues are arising over the developed and developing world. Improving energy efficiency and reducing Green Gases emissions become the key issues in all the economic sectors and, in particular, the building sector that is one of the most energy-consuming. It is, therefore, important to find alternative building materials with low-environmental impact contributing to global sustainability. In that context, this study reports on the performance of sustainable materials produced from natural resources as hemp-concrete or from recycled-waste nonbiodegradable materials including recycled polyethylene terephthalate. Three facades employing three different materials (hemp-concrete, hemp-concrete with brick and recycled polyethylene terephthalate) were investigated in three cities in France (Nancy and Carpentras) and Italy (Perugia) with different climate. The energy performance of each facade was assessed in terms of cooling and heating demands, electrical consumption for a constant flow rate ventilation mode, considering different orientations. The study also shows the effect of window size (10%, 25%, and 40%) on the annual energy consumption.

机译：全球环境问题正在发达国家和发展中国家。提高能源效率和降低绿色气体排放成为所有经济部门的关键问题，特别是建筑物，这是最具能源的耗材之一。因此，找到具有低环境影响的替代建筑材料是重要的，这是重要的，有助于全球可持续性。在这种情况下，本研究报告了从自然资源生产的可持续材料作为大麻混凝土或再循环废物非脱苯二甲酸乙二醇酯的可持续材料的性能。采用不同气候的三个城市研究了三个城市，在法国（Nancy和Carpentras）和意大利（Perugia）的三个城市中调查了三种不同材料（Hemp-Concrete，Hemp-Concralete的Hemp-Concthalate）的三个外墙。考虑到不同取向，在冷却和加热需求方面评估了每个外观的能量性能，用于恒定流量通风模式的电消耗。该研究还表明窗口大小（10％，25％和40％）对年度能耗的影响。

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《Science and Technology for the Built Environment》 |2018年第5期|共10页
作者
Moussa Tala; Maalouf Chadi; Ingrao Carlo; Scrucca Flavio; Costantine Georges; Asdrubali Francesco;
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Univ Reims Champagne Ardennes GRESPI Lab EA 4694 F-51100 Reims France;

Univ Reims Champagne Ardennes GRESPI Lab EA 4694 F-51100 Reims France;

Univ Enna Kore Enna Italy;

Univ Perugia Perugia Italy;

Univ Reims Champagne Ardennes GRESPI Lab EA 4694 F-51100 Reims France;

Univ Rome Tre Rome Italy;

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正文语种 eng
中图分类建筑基础科学;
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1. Bio-based and recycled-waste materials in buildings: A study of energy performance of hemp-lime concrete and recycled-polyethylene terephthalate facades for office facilities in France and Italy [J] . Moussa Tala, Maalouf Chadi, Ingrao Carlo, Science and Technology for the Built Environment . 2018,第1a5期

机译：建筑物中的生物和再生废料：法国和意大利办公室设施的大麻 - 石灰混凝土和再生聚乙烯对苯二甲酸酯的能量性能研究
2. High-performance concrete facade with energy-efficient anchorage Innovative developments in the area of building materials [J] . Matthias Pahn, Milan Schultz-Cornelius Betonwerk + Fertigteil-Technik . 2016,第2期

机译：具有节能锚固功能的高性能混凝土立面建筑材料领域的创新发展
3. Improving energy and visual performance in offices using building integrated perovskite-based solar cells: A case study in Southern Italy [J] . Cannavale Alessandro, Ierardi Laura, Horantner Maximilian, Applied Energy . 2017,第Nova1期

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4. Double skin facade glazed office buildings; A parametric study for optimized energy and thermal comfort performance [C] . H. Poirazis PALENC(Passive and Low Energy Cooling) Conference on Building Low Energy Cooling and Advanced Ventilation Technologies in the 21st Century;AIVC(Air Infiltration and Ventilation Centre) Conference on Building Low Energy Cooling and Advanced Ventilation Technologies in the 21st Century . 2007

机译：双层外墙给办公楼上釉;优化能源和热舒适性能的参数研究
5. Kinetic facades as environmental control systems: Using kinetic facades to increase energy efficiency and building performance in office buildings . [D] . Hansanuwat, Ryan. 2010

机译：动感外墙作为环境控制系统：使用动感外墙可提高办公楼的能源效率和建筑性能。
6. Analytic Hierarchy Process-Based Construction Material Selection for Performance Improvement of Building Construction: The Case of a Concrete System Form [O] . Dongmin Lee, Dongyoun Lee, Myungdo Lee, 2020

机译：基于层次分析法的建筑材料选择对建筑性能的改善-以混凝土系统形式为例
7. The Indoor Environmental Quality Improving and Energy Saving Potential of Phase-Change Material Integrated Facades for High-Rise Office Buildings in Shanghai [O] . Qian Jin 2017

机译：上海高层办公楼综合外墙的室内环境质量改善和节能潜力

Bio-based and recycled-waste materials in buildings: A study of energy performance of hemp-lime concrete and recycled-polyethylene terephthalate facades for office facilities in France and Italy

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