BIM to BREEAM: A workflow for automated daylighting assessment of existing buildings

Abstract

By conducting an assessment of the existing building stock from the perspective of the Green Building Certification System (GBCS), it is possible to contribute to the improvement of energy utilization and reduction of greenhouse gas emissions as promoted through the Renovation Wave strategy by the European Union. These aspirations will simultaneously contribute to enhancing human well-being, indoor environmental quality, and comfort. This paper describes a novel methodology for enhancing the renovation of existing buildings at the design stage using automation within the Building Information Modeling (BIM) environment. By parameterizing the requirements of GBCS using a visual programming tool, real-time insight into the number of achieved certain issue credits in the certification process is enabled. It was also created to enable designers in the Architecture, Engineering, Construction, and Operations (AECO) sector to continuously monitor the development of design and make modifications as early as possible in the design process. Thus, cost overruns in design projects, as well as later renovations and building maintenance, are prevented. This research has utilized the capability of BIM to perform rapid compliance simulations with Building Research Establishment Environmental Assessment Method (BREEAM) requirements without the need for manual calculations and/or computer simulations in other software, which would increase the time required for analysis due to additional modeling requirements. The methodology is demonstrated using the automation of the Daylighting section of the issue Hea01 Visual Comfort from the Technical Manual SD225 1.4 − BREEAM International Non-Domestic Refurbishment 2015, and the validation was performed on a BIM model of an existing building belonging to the educational sector. The application of the described methodology in the case study reduced the time required for assessing the number of achieved daylighting credits by 40%, with potential savings extending up to 80% depending on the chosen criteria for analysis. The tool is designed to be applicable to other GBCS, building types, and newly designed buildings as well.