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A sustainable mathematical model for design of net zero energy buildings

机译：净零能耗建筑设计的可持续数学模型

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摘要

Energy is vital recourse for economic development of today's business. The services demanded of residential and commercial buildings require substantial energy use. Energy consumption in this sector has been growing in total, gradually. As a result the high emission of greenhouse gases is released and, hence, the saving energy with better building management have made a major priority of the energy and environment sectors throughout the world. In this direction, to reduce energy consumption and mitigate environmental impacts in buildings, net-zero energy buildings (NZEB) is a very effective solution. As a result, a multi-objective model is developed to identify the best combination of materials and construction options considering their related costs, energy efficiency, and environmental impacts of buildings, simultaneously. This sustainable model is presented to construct a building considering the construction costs and energy consumption of the design options. To design the NZEB, while minimizing costs and carbon emissions, use has been made of a combination of different types of active/heating and cooling systems and renewable equipment through such high-efficiency, effective, and updated technologies as the solar panel. Finally, the case study of a residential building with two scenarios is used to demonstrate the proposed framework. The results show that, for scenarios and respectively using insulation thickness such as (wall, roof, and windows) and renewable equipment have the highest sustainable impact in NEBZ's performance.

机译：能源是当今企业经济发展的重要资源。住宅和商业建筑所需的服务需要大量能源消耗。该部门的能源消耗总量一直在逐渐增加。结果，释放了高排放的温室气体，因此，通过更好的建筑管理来节省能源已成为全世界能源和环境部门的主要优先事项。在这个方向上，为减少能耗并减轻建筑物对环境的影响，零净能耗建筑（NZEB）是一种非常有效的解决方案。结果，开发了一个多目标模型，以同时考虑材料和建筑选项的相关成本，能效和建筑物的环境影响，从而确定材料和建筑选项的最佳组合。提出了这种可持续性模型来考虑建筑成本和设计方案的能耗，从而建造一栋建筑物。为了设计NZEB，同时将成本和碳排放量降至最低，并通过高效，有效和更新的技术（例如太阳能电池板）结合使用了不同类型的主动/加热和冷却系统以及可再生设备。最后，以两种场景的住宅建筑为例，对所提出的框架进行了演示。结果表明，对于情景以及分别使用隔热厚度（如（墙，屋顶和窗户）和可再生设备），NEBZ的性能具有最大的可持续影响。

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期刊名称 Heliyon
作者
Hamed Delavar; Hadi Sahebi;
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作者单位

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年(卷),期 2020(6),1
年度 2020
页码 -1
总页数 11
原文格式 PDF
正文语种
中图分类
关键词
Energy; Civil engineering; Energy use in building; Multidisciplinary design optimization; Renewable energy resources; Multi-objective mathematical model; Net zero energy building; Building thermal load; Sustainability;

机译：能源;土木工程;建筑能耗;多学科设计优化;可再生能源;多目标数学模型;净零能耗建筑;建筑热负荷;可持续性;

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1. Photovoltaics' architectural and landscape design options for Net Zero Energy Buildings, towards Net Zero Energy Communities: spatial features and outdoor thermal comfort related considerations [J] . Scognamiglio Alessandra, Garde Francois Progress in photovoltaics . 2016,第4期

机译：面向零净能耗社区的净零能耗建筑的光伏建筑和景观设计选项：与空间特征和室外热舒适性相关的考虑因素
2. Integrating Building Information Modeling (BIM) and Energy Analysis Tools with Green Building Certification System to Conceptually Design Sustainable Buildings [J] . Farzad Jalaei, Ahmad Jrade Journal Of Information Technology In Construction . 2014,第29期

机译：将建筑信息模型（BIM）和能源分析工具与绿色建筑认证系统相集成，以概念性地设计可持续建筑
3. Integrating Building Information Modeling (BIM) and Energy Analysis Tools with Green Building Certification System to Conceptually Design Sustainable Buildings [J] . Jalaei F, Jrade A Electronic Journal of Information Technology in Construction . 2014,第1期

机译：将建筑信息模型（BIM）和能源分析工具与绿色建筑认证系统相集成，以概念性地设计可持续建筑
4. The potential of net zero energy buildings (NZEBs) concept at design stage for healthcare buildings towards sustainable development [C] . Roy Hazli Abdellah, Md Asrul Nasid Masrom, Goh Kai Chen Global Congress on Construction, Material and Structural Engineering . 2018

机译：净零能量建筑（NEZEBS）概念在设计阶段进行医疗阶段，用于保健建筑物的可持续发展
5. Evaluating the Potential for High -Performance Educational Buildings Designed to Become Net- Zero Energy Building. [D] . Tabrizi, Aydin. 2016

机译：评估旨在成为零能耗建筑的高性能教育建筑的潜力。
6. Net-zero Nation: HVAC and PV Systems for Residential Net-Zero Energy Buildings across the United States [O] . Wei Wu, Harrison M. Skye -1

机译：零净国家：全美住宅净零能耗建筑的HVAC和PV系统
7. Towards Net Zero Energy Building: Collaboration-based Sustainable Design and Practice of the Beijing Waterfowl Pavilion [O] . Song Yehao, Sun Jingfen, Li Junjie, 2014

机译：迈向零能耗净建筑：北京水禽馆基于协作的可持续设计与实践

A sustainable mathematical model for design of net zero energy buildings

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