Application of BIM technology in BREEAM certification

Martynas Pauža

doi:10.3846/mla.2023.18391

DOI: https://doi.org/10.3846/mla.2023.18391

Abstract

Energy consumption is widely studied in the world together with the topic of how to reduce the use of resources during the entire life cycle of the building – energy consumption is related to the emission of carbon dioxide (CO₂) into the air. BREEAM (Building Research Establishment Environmental Assessment Method) is the world’s most widespread real estate impact assessment method and certification standard. In BREEAM certification the evaluation of health and quality of life in buildings, construction materials, innovation, economic and social responsibility, energy, water management, ecology, and pollution must be done. For collection of the precise data the Building Information Modelling (BIM) was used as a tool. BIM is increasingly used in the world not only for design but also for the entire life cycle management of the building. The BIM application ensures efficient use of resources and smoother construction management. This article explores the application of BIM technologies in BREEAM certification, identifying potential benefits and limitations.

Article in Lithuanian.

BIM technologijų taikymo analizė sertifikuojant pagal BREEAM

Santrauka

Siekiant sumažinti išteklių naudojimo mastą viso pastato gyvavimo ciklo metu, pasaulyje plačiai nagrinėjama energijos vartojimo tema – energijos vartojimas, susijęs su anglies dvideginio (CO₂) išmetimu į orą. BREEAM (angl. Building Research Establishment Environmental Assessment Method), yra tarp plačiausiai pasaulyje paplitusių nekilnojamojo turto poveikio vertinimo metodų ir sertifikavimo standartų. Sertifikuojant pagal BREEAM būtina vertinti sveikatą ir gyvenimo kokybę pastatuose, statybines medžiagas, inovacijas, ekonominę ir socialinę atsakomybę, energiją, vandentvarką, ekologiją ir taršą. Statinio informacinis modeliavimas (angl. Building Information Modelling, BIM) vis plačiau pasaulyje naudojamas ne tik projektams rengti, bet ir visam pastato gyvavimo ciklo valdyti. Taikant BIM, efektyviau naudojami ištekliai ir užtikrinamas sklandesnis statybų valdymas. Šiame straipsnyje tiriamos BIM technologijų taikymo galimybės sertifikuojant pagal BREEAM, nustatomos galimos naudos ir apribojimai.

Reikšminiai žodžiai: BIM, BREEAM, LEED, CDE, tvarumas.

Keyword : BIM, BREEAM, LEED, CDE, sustainability

How to Cite

Pauža, M. (2023). Application of BIM technology in BREEAM certification. Mokslas – Lietuvos Ateitis / Science – Future of Lithuania, 15. https://doi.org/10.3846/mla.2023.18391

Published in Issue

Apr 26, 2023

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References

Abanda, F. H., & Byers, L. (2016). An investigation of the impact of building orientation on energy consumption in a domestic building using emerging BIM (Building Information Modelling). Energy, 97, 517–527. https://doi.org/10.1016/j.energy.2015.12.135

Carvalho, J. P., Almeida, M., Bragança, L., & Mateus, R. (2021). BIM-based energy analysis and sustainability assessment–application to Portuguese buildings. Buildings, 11(6), 246. https://doi.org/10.3390/buildings11060246

Carvalho, J. P., Bragança, L., & Mateus, R. (2020). A systematic review of the role of BIM in building sustainability assessment methods. Applied Sciences, 10(13), 4444. https://doi.org/10.3390/app10134444

Choi, J. O., Bhatla, A., Stoppel, C. M., & Shane, J. S. (2015). LEED credit review system and optimization model for pursuing LEED certification. Sustainability, 7, 13351–13377. https://doi.org/10.3390/su71013351

Cole, R. J., & Valdebenito, M. J. (2013). The importation of building environmental certification systems: International usages of BREEAM and LEED. Building Research & Information, 41, 662–676. https://doi.org/10.1080/09613218.2013.802115

Harding, J., Suresh, S., Renukappa, S., & Mushatat, S. (2014). Do building information modelling applications benefit design teams in achieving BREEAM accreditation? Journal of Construction Engineering, 2014, 390158. https://doi.org/10.1155/2014/390158

Pavlovskis, M., Antucheviciene, J., & Migilinskas, D. (2017). Assessment of buildings redevelopment possibilities using MCDM and BIM techniques. Procedia Engineering, 172, 846–850. https://doi.org/10.1016/j.proeng.2017.02.083

Rivera, A. (2009, June 22–24). International applications of building certification methods: A comparison of BREEAM and LEED [Conference presentation]. Conference on Passive and Low Energy Architecture, Quebec City, Canada. http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.562.6354

Romano, S., & Riediger, N. (2019). BIM as a tool for Green Building Certifications: An evaluation of the energy category of LEED, BREEAM and DGNB. Journal of Physics: Conference Series, 1425, 012162. https://doi.org/10.1088/1742-6596/1425/1/012162

Serrano-Baena, M. M., Triviño-Tarradas, P., Ruiz-Díaz, C., & Hidalgo Fernández, R. E. (2020). Implications of BREEAM sustainability assessment on the design of hotels. Sustainability, 12(16), 6550. https://doi.org/10.3390/su12166550

Zanni, M.-A., Soetanto, R., & Ruikar, K. (2014). Defining the sustainable building design process: Methods for BIM execution planning in the UK. International Journal of Energy Sector Management, 8(4), 562–587. https://doi.org/10.1108/IJESM-04-2014-0005