Yapı Bilgi Modellemesi Kullanımının Sürdürülebilir Yeşil Bina Projeleri Üzerine Etkileri
Yıl 2022,
Cilt: 33 Sayı: 3, 11857 - 11886, 01.05.2022
Asli Pelin Gurgun
,
Kerim Koc
,
Şenay Atabay
Öz
Doğal kaynakların hızla tükenişi ve kontrolsüz artan nüfus gibi sebepler her alanda olduğu gibi, inşaat sektöründe de sürdürülebilirliği zorunlu hale getirmiştir. Yapı Bilgi Modellemesi (YBM) uygulamaları bu amaca ulaşabilmek için, inşaat sektöründe son yıllarda önemli bir araç olarak kullanılmaktadır. Bu çalışmada iki ana bölümde YBM kullanımının sürdürülebilir yeşil bina projelerindeki avantajları incelenmiştir. İlk bölümde YBM kullanımının avantajları etkili oldukları proje aşamalarına göre değerlendirilmiştir. İkinci bölümde ise, bu aşamalarda YBM’nin inşaat projelerinin maliyet, süre, kapsam ve kalite kısıtlarına sağladığı katkılar irdelenmiştir. Analizler sonucunda, farklı disiplinler arası birlikte çalışabilirlik en önemli avantaj olarak saptanmış, bu avantajlarının proje aşamaları özelinde değişiklik gösterdiği tespit edilmiştir.
Kaynakça
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Impacts of Using Building Information Modelling (BIM) in Sustainable Green Building Projects
Yıl 2022,
Cilt: 33 Sayı: 3, 11857 - 11886, 01.05.2022
Asli Pelin Gurgun
,
Kerim Koc
,
Şenay Atabay
Öz
Rapid consumption of natural resources and uncontrolled increasing population made sustainability necessary in the construction industry, as in many other areas. Building Information Modeling (BIM) applications have been used as an important tool in the construction industry in recent years to achieve this goal. In this study, the advantages of using BIM in sustainable green building projects were investigated in two main parts. In the first part, the advantages of using BIM in sustainable projects according to effective project phases were examined. In the second part, contributions of BIM to cost, duration, scope and quality constraints were analyzed. The results indicate that interdisciplinary collaborating environment has been identified as the most important advantage and these advantages could vary according to project phases.
Kaynakça
- İzoder, Dünyada Binalarda Enerji Verimliliği Stratejileri ve Türkiye’de Yapılması Gerekenler, 2010-2023 Isı Yalıtımı Planlama Raporu, 2010.
- YEGM, Bütünleşik Bina Tasarımı Yaklaşımı ile Proje Geliştirme Süreci Uygulama Kılavuzu, 2016.
- Ofluoğlu, S., BIM ve sürdürülebilirlik, in XVIII. Akademik Bilişim Konferansı, 2016, 1183–1187.
- Udomsap, A. D. and Hallinger, P., A bibliometric review of research on sustainable construction, 1994–2018, Journal of Cleaner Production, 254, 120073, 2020.
- Yeheyis, M., Hewage, K., Alam, M. S., Eskicioglu, C., and Sadiq, R., An overview of construction and demolition waste management in Canada: A lifecycle analysis approach to sustainability, Clean Technologies and Environmental Policy, 15 (1), 81–91, 2013.
- Apanavičienė, R., Maliejus, K., and Fokaides, P., Sustainability Assessment of the Building Construction Stage Using Building Sustainability Assessment Schemes (BSAS), in IOP Conference Series: Earth and Environmental Science, 2020, 410, 012064.
- Eastman, C., Building Product Models: Computer Environments Supporting Design and Construction. Boca Raton: CRC Press, 1999.
- Ofluoğlu, S., Yapı Bilgi Modelleme : Gereksinim ve Birlikte Çalışabilirlik, Mimarist, 1–5, 2014.
- Reizgevičius, M., Ustinovičius, L., Cibulskieně, D., Kutut, V., and Nazarko, L., Promoting sustainability through investment in Building Information Modeling (BIM) technologies: A design company perspective, Sustainability (Switzerland), 10 (3), 2018.
- Zhang, L., Chu, Z., and Song, H., Understanding the Relation between BIM Application Behavior and Sustainable Construction: A Case Study in China, Sustainability, 2019.
- Wu, W. and Issa, R. R. A., BIM execution planning in green building projects: LEED as a use case, Journal of Management in Engineering, 31 (1), A4014007, 2014.
- Seyis, S., Pros and Cons of Using Building Information Modeling in the AEC Industry, Journal of Construction Engineering and Management, 145 (8), 04019046, 2019.
- Wong, K. din and Fan, Q., Building information modelling (BIM) for sustainable building design, Facilities, 31 (3), 138–157, 2013.
- Ozorhon, B. and Karahan, U., Critical Success Factors of Building Information Modeling Implementation, Journal of Management in Engineering, 33 (3), 1–10, 2017.
- Ahn, Y. H., Kwak, Y. H., and Suk, S. J., Contractors’ Transformation Strategies for Adopting Building Information Modeling, Journal of Management in Engineering, 32 (1), 05015005, 2016.
- Zuppa, D., Issa, R. R. A., and Suermann, P. C., BIM’s impact on the success measures of construction projects, in Proceedings of the 2009 ASCE International Workshop on Computing in Civil Engineering, 2009, 346, 503–512.
- Kuiper, I. and Holzer, D., Rethinking the contractual context for Building Information Modelling (BIM) in the Australian built environment industry, Australasian Journal of Construction Economics and Building, 13 (4), 1–17, 2013.
- Demirdöğen, G. and Işık, Z., Structural Equation Model of the Factors Affecting Construction Industry Innovation Success, Teknik Dergi, 1–21, 2021.
- Taylor, J. E. and Bernstein, P. G., Paradigm Trajectories of Building Information Modeling Practice in Project Networks, Journal of Management in Engineering, 25 (2), 166–176, 2009.
- Shen, L. yin, Tam, V. W. Y., Tam, L., and Ji, Y. bo, Project feasibility study: the key to successful implementation of sustainable and socially responsible construction management practice, Journal of Cleaner Production, 18 (3), 254–259, 2010.
- Gurgun, A. P. and Arditi, D., Assessment of energy credits in LEED-certified buildings based on certification levels and project ownership, Buildings, 8 (2), 1–20, 2018.
- Uğur, L. O. and Leblebici, N., Investigation of the effects of energy and water saving benefits on property value in LEED certified green buildings, Teknik Dergi, 30 (1), 8753–8776, 2019.
- Fanning, B., Clevenger, C. M., Ozbek, M. E., and Mahmoud, H., Implementing BIM on infrastructure: Comparison of two bridge construction projects, Practice Periodical on Structural Design and Construction, 20 (4), 04014044, 2015.
- Azhar, S., Carlton, W. A., Olsen, D., and Ahmad, I., Building information modeling for sustainable design and LEED ® rating analysis, Automation in Construction, 20 (2), 217–224, 2011.
- Bynum, P., Issa, R. R. A., and Olbina, S., Building information modeling in support of sustainable design and construction, Journal of Construction Engineering and Management, 139 (1), 24–34, 2013.
- Hinze, J., Godfrey, R., and Sullivan, J., Integration of Construction Worker Safety and Health in Assessment of Sustainable Construction, Journal of Construction Engineering and Management, 139 (6), 594–600, 2013.
- Gurgun, A. P. and Koc, K., Contractor prequalification for green buildings — evidence from Turkey, Engineering, Construction and Architectural Management, 27 (6), 1377–1400, 2020.
- El-Sayegh, S. M., Manjikian, S., Ibrahim, A., Abouelyousr, A., and Jabbour, R., Risk identification and assessment in sustainable construction projects in the UAE, International Journal of Construction Management, 1–10, 2018.
- Atabay, S., Gurgun, A. P., and Koc, K., Incorporating BIM and Green Building in Engineering Education: Assessment of a School Building for LEED Certification, Practice Periodical on Structural Design and Construction, 25 (4), 04020040, 2020.
- Hosseini, M. R., Maghrebi, M., Akbarnezhad, A., Martek, I., and Arashpour, M., Analysis of Citation Networks in Building Information Modeling Research, Journal of Construction Engineering and Management, 144 (8), 04018064, 2018.
- Reeves, T., Olbina, S., and Issa, R. R. A., Guidelines for using building information modeling for energy analysis of buildings, Buildings, 5 (4), 1361–1388, 2015.
- Edwards, R. E., Lou, E., Bataw, A., Kamaruzzaman, S. N., and Johnson, C., Sustainability-led design: Feasibility of incorporating whole-life cycle energy assessment into BIM for refurbishment projects, Journal of Building Engineering, 24, 100697, 2019.
- Jalaei, F., Jalaei, F., and Mohammadi, S., An integrated BIM-LEED application to automate sustainable design assessment framework at the conceptual stage of building projects, Sustainable Cities and Society, 53, 101979, 2019.
- Carvalho, J. P., Bragança, L., and Mateus, R., Optimising building sustainability assessment using BIM, Automation in Construction, 102, 170–182, 2019.
- Ölçer B., İklim Krizinde BİM’in Üstleneceği Rol, Yapı Bilgi Modelleme, 2 (2), 19–29, 2019.
- Chong, H. Y., Lee, C. Y., and Wang, X., A mixed review of the adoption of Building Information Modelling (BIM) for sustainability, Journal of Cleaner Production, 142, 4114–4126, 2017.
- Olawumi, T. O. and Chan, D. W. M., An empirical survey of the perceived benefits of executing BIM and sustainability practices in the built environment, Construction Innovation, 19 (3), 321–342, 2019.
- Becerik-Gerber, B. and Kensek, K., Building information modeling in architecture, engineering, and construction: Emerging research directions and trends, Journal of Professional Issues in Engineering Education and Practice, 136 (3), 139–147, 2010.
- Lu, Y., Wu, Z., Chang, R., and Li, Y., Automation in Construction Building Information Modeling (BIM) for green buildings: A critical review and future directions, Automation in Construction, 83 (June), 134–148, 2017.
- Marzouk, M. and Othman, A., Modeling the performance of sustainable sanitation systems using building information modeling, Journal of Cleaner Production, 141, 1400–1410, 2017.
- Li, B., Fu, F. F., Zhong, H., and B, L. H., Research on the computational model for carbon emissions in building construction stage based on BIM, Structural Survey, 30 (5), 411–425, 2012.
- Zhou, Y., Ding, L., Rao, Y., Luo, H., Medjdoub, B., and Zhong, H., Automation in Construction Formulating project-level building information modeling evaluation framework from the perspectives of organizations: A review, Automation in Construction, 81, 44–55, 2017.
- Bryde, D., Broquetas, M., and Volm, J. M., The project benefits of building information modelling (BIM), International Journal of Project Management, 31 (7), 971–980, 2013.
- Kivits, R. A. and Furneaux, C., BIM: Enabling sustainability and asset management through knowledge management, The Scientific World Journal, 2013, 1–14, 2013.
- Luth, G. P., Schorer, A., and Turkan, Y., Lessons from using BIM to increase design-construction integration, Practice Periodical on Structural Design and Construction, 19 (1), 103–110, 2014.
- Ghaffarianhoseini, A. et al., Building Information Modelling (BIM) uptake: Clear benefits, understanding its implementation, risks and challenges, Renewable and Sustainable Energy Reviews, 75 (September 2016), 1046–1053, 2017.
- Olawumi, T. O. and Chan, D. W. M., Identifying and prioritizing the benefits of integrating BIM and sustainability practices in construction projects: A Delphi survey of international experts, Sustainable Cities and Society, 40, 16–27, 2018.
- Eadie, R., Browne, M., Odeyinka, H., McKeown, C., and McNiff, S., BIM implementation throughout the UK construction project lifecycle: An analysis, Automation in Construction, 36, 145–151, 2013.
- Azhar, S. and Brown, J., Bim for sustainability analyses, International Journal of Construction Education and Research, 5 (4), 276–292, 2009.
- Cheung, F. K. T., Rihan, J., Tah, J., Duce, D., and Kurul, E., Early stage multi-level cost estimation for schematic BIM models, Automation in Construction, 27, 67–77, 2012.
- Azhar, S., Khalfan, M., and Maqsood, T., Building information modeling (BIM): Now and beyond, Australasian Journal of Construction Economics and Building, 12 (4), 15–28, 2012.
- Ibrahim, M., Krawczyk, R., and Schipporeit, G., Two Approaches to BIM : A Comparative Study . ECAADe 2004 ECAADe 2004, Technology, 1–7, 2004.
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