BIM-based LCSA application in early design stages using IFC

Identifiers
ISSN: 0926-5805
DOI: 10.1016/j.autcon.2022.104259
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Author
Llatas Oliver, María Carmen; Soust Verdaguer, B.; Hollberg, A.; Palumbo, E.; Quiñones Rodríguez, María del Rocío [et al.]
Date
2022
Subject/s

Evaluación de la Sostenibilidad del Ciclo de Vida (LCSA)

Evaluación ambiental

Building Information Modeling (BIM)

Formato IFC

Sistemas constructivos

Unesco Subject/s

1203.09 Diseño Con Ayuda del Ordenador

1203.12 Bancos de Datos

3305.32 Ingeniería de Estructuras

Abstract

Life Cycle Sustainability Assessment (LCSA) is an integrated method that combines environmental, economic, and social assessments. Its methodological development remains under discussion, mainly regarding the building design. This paper aims to provide a systematic, interoperable, and open-source approach towards implementing LCSA in Building Information Modelling (BIM) in five steps. A harmonized data structure that enriches BIM objects is proposed. Automation in the principal evaluation step is provided by integrating new parameters into the current Industry Foundation Classes (IFC4). A Dynamo script verifies its utility in a case study in Spain using real-time calculations and visualizations. Two alternative structural systems are assessed, and identification is made of the lowest CO2 emitter, the lowest cost, and the most beneficial system for local employment. The approach can be employed to evaluate other indicators and building systems in other countries. Challenges and limitations in the standardization and harmonization of the three dimensions are identified. © 2021

Life Cycle Sustainability Assessment (LCSA) is an integrated method that combines environmental, economic, and social assessments. Its methodological development remains under discussion, mainly regarding the building design. This paper aims to provide a systematic, interoperable, and open-source approach towards implementing LCSA in Building Information Modelling (BIM) in five steps. A harmonized data structure that enriches BIM objects is proposed. Automation in the principal evaluation step is provided by integrating new parameters into the current Industry Foundation Classes (IFC4). A Dynamo script verifies its utility in a case study in Spain using real-time calculations and visualizations. Two alternative structural systems are assessed, and identification is made of the lowest CO2 emitter, the lowest cost, and the most beneficial system for local employment. The approach can be employed to evaluate other indicators and building systems in other countries. Challenges and limitations in the standardization and harmonization of the three dimensions are identified. © 2021

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