现有建筑存量综合评估中的模型和数据管理问题

IF 1.6 Q3 MANAGEMENT
M. Honic, I. Kovacic
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引用次数: 6

摘要

随着人口的不断增长和城市化进程的加快,世界范围内对物质资源和能源的需求不断增加。未来的挑战将是提供足够的资源,并尽量减少不断产生的废物和能源需求。为了实现可持续发展,提高材料的回收率和再利用率,仅次于降低能源消耗具有最高的优先级。本文介绍了多学科研究项目SCI_BIM的结果,该项目是在一个被占用的现有建筑上进行的。在SCI_BIM中,开发了用于建筑物扫描和建模的耦合数字技术的工作流程。激光扫描用于捕获几何形状,探地雷达用于评估材料成分。对于半自动化生成已建成BIM,算法被开发,因此点云作为基础。bim模型用于能源建模和分析以及材料护照的自动编译。此外,将开发一个游戏化概念,以激励建筑物的用户收集数据。通过应用游戏化概念,将测试能耗的降低以及已建成BIM的自动更新。本文旨在分析在SCI_BIM中协作的各学科之间复杂的跨学科交互、数据和模型交换过程。结果表明,所开发的方法面临着许多挑战。尽管如此,它仍有潜力作为创建二级原材料基地和优化现有建筑能源消耗的基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Model and data management issues in the integrated assessment of existing building stocks
Abstract The increasing population growth and urbanization rises the worldwide consumption of material resources and energy demand. The challenges of the future will be to provide sufficient resources and to minimize the continual amount of waste and energy demand. For the achievement of sustainability, increasing recycling rates and reuse of materials, next to the reduction of energy consumption has the highest priority. This article presents the results of the multidisciplinary research project SCI_BIM, which is conducted on an occupied existing building. Within SCI_BIM, a workflow for coupling digital technologies for scanning and modeling of buildings is developed. Laser scanning is used for capturing the geometry, and ground-penetrating radar is used for assessing material composition. For the semi-automated generation of an as-built BIM, algorithms are developed, wherefore the Point-Cloud serves as a basis. The BIM-model is used for energy modeling and analysis as well as for the automated compilation of Material Passports. Further, a gamification concept will be developed to motivate the buildings’ users to collect data. By applying the gamification concept, the reduction of energy consumption together with an automated update of the as-built BIM will be tested. This article aims to analyze the complex interdisciplinary interactions, data, and model exchange processes of various disciplines collaborating within SCI_BIM. Results show that the developed methodology is confronted with many challenges. Nevertheless, it has the potential to serve as a basis for the creation of secondary raw materials cadaster and for the optimization of energy consumption in existing buildings.
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来源期刊
CiteScore
3.10
自引率
0.00%
发文量
8
审稿时长
16 weeks
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