利用BIM进行综合可持续性评估

Maria Teresa Henriques Alves FERREIRA, António Aguiar Costa, J. Dinis Silvestre
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引用次数: 0

摘要

建筑行业占能源消耗的40%,二氧化碳排放量的36%,建筑占欧洲能源消耗的很大一部分。因此,人们越来越关注建筑部门的环境影响。减少这些影响和优化设计过程是一个主要的优先事项,技术需要与设计相结合,以实现更好的建筑性能。建筑信息模型(BIM)方法是一种革命性的技术,它改变了供应链交付建筑项目的方式,允许对整个生命周期进行概述,跟踪过程中的数据,并增强更高级的模拟和支持决策。本文提出的工具旨在将不同类型的可持续性分析,即精简生命周期评估(LCA),碳足迹,生命周期成本(LCC)和水平框架与BIM相结合。这包括为BIM对象定义适当的产品数据模板(PDT)和数据库结构,包括必要的参数,使设计师能够从早期设计阶段到完整的LCA进行全面和动态的评估。此外,考虑到使用BIM可视化不同场景的重要性,将开发一个图形界面来显示关键的可持续性指标,并支持更可持续建筑的决策。所取得的结果表明,必须采用技术来实现气候最雄心勃勃的目标,并减少施工的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Integrated sustainability assessment using BIM
The construction industry is responsible for 40 % of the energy consumption and 36 % of the CO2 emissions, and buildings are responsible for a significant part of energy consumption in Europe.Thus, a growing concern regarding environmental impacts in the construction sector is in place. Reducing these impacts and optimise the design process is a major priority, and technology needs to be integrated along with the design to allow for better buildings performance. Building Information Modelling (BIM) methodology is one of the technologies that is revolutionising how the supply chain delivers the construction projects, allowing for an overview of the whole life cycle, keeping track of the data along the process, and potentiating more advanced simulations and supported decisions.The tool proposed in this paper aims to integrate different types of sustainability analysis, namely Streamlined Life Cycle Assessment (LCA), Carbon Footprint, Life Cycle Cost (LCC) and Level(s) framework with BIM. This involves defining adequate Product Data Templates (PDT) and a database structure for BIM objects, including the necessary parameters to enable designers to do holistic and dynamic assessments from early design stages to a complete LCA. Also, considering the importance of using BIM to visualise different scenarios, a graphical interface will be developed to show the key sustainability indicators and support decision-making for more sustainable buildings. The results achieved show that technology must be taken to meet Climate most ambition targets and reduce the impact of construction.
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