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Book Chapter

Implementation of Building Information Modeling (BIM) for Economic Sustainable Construction Minimizing Material Waste in Terms of Value Engineering

  • Aya Ali Shihata
  • Mohamed Anwar Fekry
  • Wessam Hamdy Abbas

The construction industry consumes a large amount of raw materials and produces large amounts of carbon dioxide emissions. However, studies have shown that philosophies alone are not efficient in solving problems in the construction industry. They must be supported by new tools and methodologies. Therefore, this study aimed to achieve a more sustainable building field by integrating BIM technology and value engineering principles in the management of building materials. to achieve the highest possible consumption of environmental resources and materials through value engineering. The methodology employed in this study was to develop a material waste management system for construction projects. Starting in the early design phase, develop a decision-making process for selecting the optimum floor tile size according to room dimensions. Some materials, such as floor tiles, wooden panels, and marble, can be used more efficiently using BIM and scheduling tools. Floor tiles are essential finishing materials in the AEC industry. The initial findings outline the benefits that can be obtained by using BIM tools to achieve waste minimization through value engineering principles by creating an automation process to choose the best floor tile size according to the space width and length and minimize the percentage of cut tiles to the total number of tiles that are used in the space. This provides a game-changing solution for construction stakeholders

  • Keywords:
  • Building Information Modeling,
  • Value Engineering,
  • Sustainable Construction,
  • Material Management,
  • Construction Site Management,
  • Architectural Engineering and Construction,
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Aya Ali Shihata

Alexandria University, Egypt

Mohamed Anwar Fekry

Alexandria University, Egypt

Wessam Hamdy Abbas

Alexandria University, Egypt

  1. S. Murari and A. M. Joshi. (July 2017) “Precast construction methodology in the construction industry,” in Proceeding of the International Conference on Emerging Research Trends in Mechanical and Civil Engineering, Bengaluru, India. https://www.academia.edu/34631308/PRECAST_CONSTRUCTION_METHODOLOGY_IN_CONSTRUCTION_INDUSTRY
  2. Elçi, H.(2016). Utilization of crushed floor and wall tile wastes as aggregate in concrete production. J. Clean. Prod.( 112, 742–752). https://www.researchgate.net/publication/282626447_Utilisation_of_crushed_floor_and_wall_tile_wastes_as_aggregate_in_concrete_production
  3. Daniyal, M.; Ahmad, S. (2007).Application of Waste Ceramic Tile Aggregates in Concrete. Int. J. Innov. Res. Sci. Eng. Technol. (3297, 12808–12815). http://www.ijirset.com/upload/2015/december/128_32_Application.pdf
  4. Tikul, N.; Srichandr, P. (2010). Assessing the environmental impact of ceramic tile production in Thailand. J. Ceram. Soc. Jpn. (118, 887–894). https://www.jstage.jst.go.jp/article/jcersj2/118/1382/118_1382_887/_pdf
  5. T. Cunningham. (2013). “Factors affecting the cost of building work-an overview,” Dublin Institute of Technology, Dublin, Ireland. https://arrow.tudublin.ie/cgi/viewcontent.cgi?article=1028&context=beschreoth
  6. G. Bamigboye, I. Davies, C. Nwankwo, and T. Michaels. (2019). “Innovation in construction materials review,” IOP Conference Series: Materials Science and Engineering. (vol. 640, no. 1). https://www.researchgate.net/publication/337226304_Innovation_in_Construction_Materials-A_Review
  7. Basta, A., Hassanien, M., Marzouk, M. (2020). A BIM-based framework for quantitative assessment of steel structure deconstructability. Autom. Construction. https://www.researchgate.net/publication/338225406_A_BIM-based_framework_for_quantitative_assessment_of_steel_structure_deconstructability
  8. Ding, T., Xiao, J. (2014). Estimation of building-related construction and demolition waste in Shanghai. Waste Manag. https://pubmed.ncbi.nlm.nih.gov/25164857/
  9. Kumar, B., Cheng, J. C., & McGibbney, L. (2010, June). Cloud computing and its implications for construction IT. In Computing in Civil and Building Engineering, Proceedings of the International Conference (Vol. 30, p. 315). https://www.researchgate.net/publication/264880713_Cloud_Computing_and_its_Implications_for_Construction_IT
  10. Wu, S.; Zhang, N.; Luo, X.; Lu, W.-Z.(2021). Intelligent optimal design of floor tiles: A goal-oriented approach based on BIM and parametric design platform. J. Clean. Prod. https://scholars.cityu.edu.hk/en/publications/publication(9103fd69-0c31-44b2-bd5a-894406da66e6).html
  11. Liu, H.; Zhang, Y.; Lei, Z.; Li, H.X.; Han, S. (2021). Design for Manufacturing and Assembly: A BIM-Enabled Generative Framework for Building Panelization Design. Adv. Civ. Eng. 2021. https://downloads.hindawi.com/journals/ace/2021/5554551.pdf?_gl=1*1v1ym75*_ga*MjAyODE5NzA2Ny4xNjg5MDEyODE4*_ga_NF5QFMJT5V*MTY5Njc2NTY0MS4zLjEuMTY5Njc2NTY5My44LjAuMA..&_ga=2.179634084.1810770455.1696765642-2028197067.1689012818
  12. Khosakitchalert, C.; Yabuki, N.; Fukuda, T.(2019). Improving the accuracy of BIM-based quantity takeoff for compound elements. Autom. Constr. https://www.researchgate.net/publication/334401592_Improving_the_accuracy_of_BIM-based_quantity_takeoff_for_compound_elements
  13. Liu, Z.; Osmani, M.; Demian, P.; Baldwin, A. (2015). A BIM-aided construction waste minimization framework. Autom. Constr. https://www.researchgate.net/publication/281090110_A_BIM-aided_construction_waste_minimisation_framework
  14. Ekanayake, L.L.; Ofori, G. (2004). Building waste assessment score: Design-based tool. Build. Environ. https://www.researchgate.net/publication/223430732_Building_waste_assessment_score_Design-based_tool
  15. Banihashemi, S.; Tabadkani, A. Hosseini. (2018). M.R. Integration of parametric design into modular coordination: A construction waste reduction workflow. Autom. Constr. https://www.researchgate.net/publication/322036214_Integration_of_parametric_design_into_modular_coordination_A_construction_waste_reduction_workflow
  16. . Guerra, B.C.; Bakchan, A.; Leite, F.; Faust, K.M. (2019). BIM-based automated construction waste estimation algorithms: The case of concrete and drywall waste streams. Waste Manag. https://www.sciencedirect.com/science/article/abs/pii/S0956053X1930131X
  17. Asdrubali F, Baldassarri C, Fthenakis V. (2013). Life cycle analysis in the construction sector: guiding the Optimization of conventional Italian buildings. Energy Build. https://www.sciencedirect.com/science/article/abs/pii/S0378778813002545
  18. Atabay S, Galipogullari N. 2013. Application of value engineering in construction projects. J Traffic Transp Eng. https://www.researchgate.net/publication/285275968_Application_of_Value_Engineering_in_Construction_Projects
  19. Chamikara BS, Perera KS, Rodrigo MN. (2018). Competencies of the quantity surveyor in performing for sustainable construction. Int J Constr Manage. https://www.researchgate.net/publication/325536863_Competencies_of_the_quantity_surveyor_in_performing_for_sustainable_construction
  20. Chong H, Lee C, Wang X. (2017). A mixed review of the adoption of building information modeling (BIM) for sustainability. J Cleaner Prod. http://hdl.handle.net/20.500.11937/31646
  21. Gao G, Koch C, Wu Y. (2019). Building information modeling-based building energy modeling: a review. Appl Energy https://www.researchgate.net/publication/330542525_Building_Information_Modelling_based_Building_Energy_Modelling_A_review
  22. Gunarathne AS, Zainudeen N, Perera CR, Perera BS. (2020). A framework of integrated sustainability and value engineering concepts for construction projects. Int J Constr Manage. https://www.researchgate.net/publication/341617503_A_framework_of_an_integrated_sustainability_and_value_engineering_concepts_for_construction_projects
  23. Jalaei F, Jalaei F, Mohammadi S. (2020). An integrated BIM-LEED application to automate sustainable design assessment framework at the conceptual stage of building projects. Sustain Cities Soc https://www.researchgate.net/publication/337450380_An_integrated_BIM-LEED_application_to_automate_sustainable_design_assessment_framework_at_the_conceptual_stage_of_building_projects
  24. Lu Q, Won J, Cheng J. (2016). A financial decision making framework for construction projects based on 5D Building Information Modeling (BIM). Int J Project Manage. https://www.researchgate.net/publication/282411644_A_financial_decision_making_framework_for_construction_projects_based_on_5D_Building_Information_Modeling_BIM
  25. Park CS, Kim HJ, Park HT, Goh JH, Pedro A.(2017). BIM-based idea bank for managing value engineering ideas. Int J Project Manage. https://www.researchgate.net/profile/Chansik-Park-3/publication/309185210_BIM-based_idea_bank_for_managing_value_engineering_ideas/links/5b1dde48a6fdcca67b69126a/BIM-based-idea-bank-for-managing-value-engineering-ideas.pdf
  26. Walasek D, Barszcz A. (2017). Analysis of the adoption rate of Building Information Modeling [BIM] and its Return on Investment [ROI]. Procedia Eng. DOI: 10.1016/j.proeng.2017.02.144
  27. Baarimah Abdullah, Alaloul Wesam, Al-Aidrous Al-Hussein, M. S. Liew. (2021). Integration of Building Information Modeling (BIM) and Value Engineering in Construction Projects: A Bibliometric Analysis.https://www.researchgate.net/publication/357812798_Integration_of_Building_Information_Modeling_BIM_and_Value_Engineering_in_Construction_Projects_A_Bibliometric_Analysis
  28. Shihai Wu a, b , Nan Zhang a, , Xiaowei Luo b , Wei-Zhen Lu b.(2021). Intelligent optimal design of floor tiles: A goal-oriented approach based on BIM and parametric design platform https://www.sciencedirect.com/science/article/abs/pii/S0959652621009732?via%3Dihub
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  • Publication Year: 2023
  • Pages: 1033-1041

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  • Publication Year: 2023

Chapter Information

Chapter Title

Implementation of Building Information Modeling (BIM) for Economic Sustainable Construction Minimizing Material Waste in Terms of Value Engineering

Authors

Aya Ali Shihata, Mohamed Anwar Fekry, Wessam Hamdy Abbas

DOI

10.36253/979-12-215-0289-3.103

Peer Reviewed

Publication Year

2023

Copyright Information

© 2023 Author(s)

Content License

CC BY-NC 4.0

Metadata License

CC0 1.0

Bibliographic Information

Book Title

CONVR 2023 - Proceedings of the 23rd International Conference on Construction Applications of Virtual Reality

Book Subtitle

Managing the Digital Transformation of Construction Industry

Editors

Pietro Capone, Vito Getuli, Farzad Pour Rahimian, Nashwan Dawood, Alessandro Bruttini, Tommaso Sorbi

Peer Reviewed

Publication Year

2023

Copyright Information

© 2023 Author(s)

Content License

CC BY-NC 4.0

Metadata License

CC0 1.0

Publisher Name

Firenze University Press

DOI

10.36253/979-12-215-0289-3

eISBN (pdf)

979-12-215-0289-3

eISBN (xml)

979-12-215-0257-2

Series Title

Proceedings e report

Series ISSN

2704-601X

Series E-ISSN

2704-5846

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