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International Journal of Construction Management Volume 22, 2022 - Issue 12
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Articles

Proposing building information modeling-based theoretical framework for construction and demolition waste management: strategies and tools

Sakshi Guptaa Department of Civil Engineering, Indian Institute of Technology Delhi, Hauz Khas, New Delhi, India;b Department of Civil Engineering, Amity School of Engineering & Technology, Amity University Haryana, Gurugram, Haryana, IndiaCorrespondence[email protected] [email protected]
,
Kumar Neeraj Jhaa Department of Civil Engineering, Indian Institute of Technology Delhi, Hauz Khas, New Delhi, India
&
Gayatri Vyasc Department of Civil Engineering, College of Engineering, Pune, Maharashtra, India
Pages 2345-2355 | Published online: 01 Jul 2020

References

  • Abdelhamid MS. 2014. Assessment of different construction and demolition waste management approaches. HBRC J. 10(3):317–326.
  • Ahuja R, Sawhney A, Jain M, Arif M, Rakshit S. 2020. Factors influencing BIM adoption in emerging markets – the case of India. Int J Constr Manage. 20(1):65–76.
  • Ajayi SO, Oyedele LO, Bilal M, Akinade OO, Alaka HA, Owolabi HO, Kadiri KO. 2015. Waste effectiveness of the construction industry: understanding the impediments and requisites for improvements. Resour Conserv Recycl. 102:101–112.
  • Akbarnezhad A, Ong KCG, Chandra LR. 2014. Economic and environmental assessment of deconstruction strategies using building information modeling. Autom Constr. 37:131–144.
  • Akinade OO, Oyedele LO, Ajayi SO, Bilal M, Alaka HA, Owolabi HA, Arawomo OO. 2018. Designing out construction waste using BIM technology: stakeholders’ expectations for industry deployment. J Cleaner Prod. 180:375–385.
  • Akinade OO, Oyedele LO, Bilal M, Ajayi SO, Owolabi HA, Alaka HA, Bello SA. 2015. Waste minimisation through deconstruction: a BIM based Deconstructability Assessment Score (BIM-DAS). Resour Conserv Recycl. 105:167–176.
  • Akinade OO, Oyedele LO, Munir K, Bilal M, Ajayi SO, Owolabi HA, Alaka HA, Bello SA. 2016. Evaluation criteria for construction waste management tools: towards a holistic BIM framework. Int J Sustain Build Technol Urban Develop. 7(1):3–21.
  • Banias G, Achillas C, Vlachokostas C, Moussiopoulos N, Papaioannou I. 2011. A web-based decision support system for the optimal management of construction and demolition waste. Waste Manag. 31(12):2497–2502.
  • Bergsdal H, Bohne RA, Brattebø H. 2008. Projection of construction and demolition waste in Norway. J Indus Ecol. 11(3):27–39.
  • Bilal M, Oyedele LO, Qadir J, Munir K, Akinade OO, Ajayi SO, Alaka HA, Owolabi HA. 2015. Analysis of critical features and evaluation of BIM software: Towards a plug-in for construction waste minimization using big data. Int J Sustain Build Technol Urban Develop. 6(4):211–228.
  • BlueWise. 2010. Construct CLEAR. [accessed 28 Oct 2017]. http//www.constructclear.co.uk.
  • BRE. 2007. SMARTStart. [accessed 28 Oct 2017]. http//www.smartwaste.co.uk/smartstart/about.jsp.
  • BRE. 2008. SMARTAudit. [accessed 28 Oct 2017]. http//www.smartwaste.co.uk/smartaudit/about.jsp.
  • BRE. 2009. BREMap. [accessed 28 Oct 2017]. http//www.bremap.co.uk/Default.aspx.
  • BRE. 2010. True cost of waste calculator. [accessed 28 Oct 2017]. http//www.wastecalculator.co.uk/login.jsp.
  • Chen Z, Li H, Wong CTC. 2003. Web-fill before landfill: an e-commerce model for waste exchange in Hong Kong. Constr Innov. 3(1):27–43.
  • Cheng JCP, Ma LYH. 2013. A BIM-based system for demolition and renovation waste estimation and planning. Waste Manag. 33(6):1539–1551.
  • Cheng JCP, Won J, Das M. 2015. Construction and demolition waste management using BIM technology. In: Proc. 23rd Ann. Conf. of the Int'l. Group for Lean Construction, Perth, Australia, July 29–31. p. 381–390. http://www.iglc.net/.
  • Cochran KM, Townsend TG. 2010. Estimating construction and demolition debris generation using a materials flow analysis approach. Waste Manag. 30(11):2247–2254.
  • Eastman C, Teicholz P, Sacks R, Liston K. 2011. BIM handbook: a guide to building information modeling for owners. In: Managers, designers, engineers and contractors. Hoboken, NJ, USA: John Wiley & Sons. p. 1–640. ISBN: 978-0470541371.
  • Ekanayake LL, Ofori G. 2004. Building waste assessment score: design-based tool. Build Environ. 39(7):851–861.
  • Faniran O, Caban G. 1998. Minimizing waste on construction project sites. Eng, Const and Arch Man. 5(2):182–188.
  • Formoso CT, Isatto EL, Hirota EH. 1999. Method for waste control in the building industry. In: Proceedings IGLC-7 - 7th Conference of the International Group for Lean Construction, University of California, Berkeley, CA, USA. p. 325–334.
  • Ghaffarianhoseini A, Tookey J, Ghaffarianhoseini A, Naismith N, Azhar S, Efimova O, Raahemifar K. 2017. Building Information Modelling (BIM) Uptake: Clear benefits, Understanding its implementation. Risks Challenges. Renew Sustain Energy Rev. 75:1046–1053.
  • Ginzburg A. 2019. Information modeling of the construction and demolition waste system. E3S Web Conf. 97:01020–0FORM. 2019.
  • Gu N, London K. 2010. Understanding and facilitating BIM adoption in the AEC industry. Autom Constr. 19(8):988–999.
  • Guerra BC, Bakchan A, Leite F, Faust KM. 2019. BIM-based automated construction waste estimation algorithms: The case of concrete and drywall waste streams. Waste Manag. 87:825–832.
  • ICE. 2008. Institution of Civil Engineers (ICE) Demolition Protocol, [accessed 10 Dec 2017]. http//www.ice.org.uk/Information-resources/Document-Library/Demolition-Protocol-2008.
  • Irizarry J, Karan EP, Jalaei F. 2013. Integrating BIM and GIS to improve the visual monitoring of construction supply chain management. Autom Constr. 31:241–254.
  • Jaillon L, Poon CS, Chiang YH. 2009. Quantifying the waste reduction potential of using prefabrication in building construction in Hong Kong. Waste Manag. 29(1):309–320.
  • Jain S, Singhal S, Jain NK. 2018. Construction and demolition waste (C&DW) in India: generation rate and implications of C&DW recycling. Int J Constr Manage. 1–10. DOI: 10.1080/15623599.2018.1523300.
  • Jalali S. 2007. Quantification of construction waste amount. Conf. Proc. In: 6th International Technical Conference of Waste, 2007.
  • Jin R, Li B, Zhou T, Wanatowski D, Piroozfar P. 2017. An empirical study of perceptions towards construction and demolition waste recycling and reuse in China. Resour Conserv Recycl. 126:86–98.
  • Jin R, Yuan H, Chen Q. 2019. Science mapping approach to assisting the review of construction and demolition waste management research published between 2009 and 2018. Resourc, Conserv Recycl. 140:175–188.
  • Kabirifar K, Mojtahedi M, Wang C, Tam VWY. 2020. Construction and demolition waste management contributing factors coupled with reduce, reuse, and recycle strategies for effective waste management: A review. J Cleaner Prod. 263:121265.
  • Li H, Chen Z, Yong L, Kong SCW. 2005. Application of integrated GPS and GIS technology for reducing construction waste and improving construction efficiency. Autom Constr. 14(3):323–331.
  • Liu Z, Osmani M, Demian P, Baldwin AN. 2011. The potential use of BIM to aid construction waste minimalization. In: Proc. The CIB W78-W102 Conf. Sophia Antipolis, France, Oct. p. 26–28.
  • Liu Z, Osmani M, Demian P, Baldwin AN. 2015. A BIM-aided construction waste minimisation framework. Autom Constr. 59:1–23. DOI: 10.1016/j.autcon.2015.07.020.
  • Li Y, Zhang X. 2013. Web-based constructions waste estimation system for building construction projects. Autom Constr. 35:142–156.
  • Lu W, Yuan H, Li J, Hao JJL, Mi X, Ding Z. 2011. An empirical investigation of construction and demolition waste generation rates in Shenzhen city, South China. Waste Manag. 31(4):680–687.
  • Manfredi S, Tonini D, Christensen TH, Scharff H. 2009. Landfilling of waste: accounting of greenhouse gases and global warming contributions. Waste Manag Res. 27(8):825–836.
  • Mcdonald B, Smithers M. 1998. Implementing a waste management plan during the construction phase of a project: a case study. Constr Manage Econ. 16(1):71–78.
  • Mcgrath C. 2001. Waste minimisation in practice. Resourc Conserv Recycl. 32(3-4):227–238.
  • Mills TH, Showalter E, Jarman D. 1999. A cost effective waste management plan. Cost Eng. 41:35–43.
  • MoEFCC. 2016. Construction and demolition waste management rules. http://www.moef.gov.in/sites/default/files/C%20&D%20rules%202016.pdf.
  • Osmani M. 2013. Design waste mapping: a project life cycle approach. Proc ICE Waste Resourc Manage. 166(3):114–127.
  • Osmani M, Glass J, Price ADF. 2008. Architects' perspectives on construction waste reduction by design. Waste Manag. 28(7):1147–1158.
  • Poon CS. 2007. Reducing construction waste. Waste Manag. 27(12):1715–1716.
  • Poon CS, Yu ATW, Jaillon L. 2004. Reducing building waste at construction sites in Hong Kong. Constr Manage Econ. 22(5):461–470.
  • Porwal A, Hewage KN. 2012. Building information modeling–based analysis to minimize waste rate of structural reinforcement. J Constr Eng Manage. 138(8):943–954. DOI: 10.1061/(ASCE)CO.1943-7862.0000508.
  • Rajendran P, Gomez CP. 2012. Implementing BIM for waste minimization in the construction industry: a literature review. In: Proc. 2nd Int’l Conf. on Management, Kuala Lumpur, Malaysia, November p. 6.
  • RIBA. 2013. RIBA plan of work report 2013. [accessed 7 Jan 2018]. https://www.ribaplanofwork.com/Download.aspx.
  • Shen LY, Lu WS, Yao H, Wu DH. 2005. A computer-based scoring method for measuring the environmental performance of construction activities. Autom Constr. 14(3):297–309.
  • Shen LY, Tam VWY, Tam CM, Drew D. 2004. Mapping approach for examining waste management on construction sites. J Constr Eng Manage. 130 (4):472–481.
  • Shoba B, Rasappan K. 2013. Application of GIS in solid waste management for Coimbatore City. Int J Scient Res Publ. 3(10):1–4.
  • Solís-Guzmán J, Marrero M, Montes-Delgado MV, Ramírez-de-Arellano A. 2009. A Spanish model for quantification and management of construction waste. Waste Manag. 29(9):2542–2548.
  • Won J, Cheng JCP. 2017. Identifying potential opportunities of building information modeling for construction and demolition waste management and minimization. Autom Constr. 79:3–18.
  • Wong JKW, Zhou J. 2015. Enhancing environmental sustainability over building life cycles through green BIM: A review. Autom Constr. 57:156–165.
  • WRAP. 2007. Material Logistics Plan Good Practice Guidance. [accessed 7 Jan 2018]. http://www.wrap.org.uk/sites/files/wrap/MLP%20Guidance%20Document.pdf.
  • WRAP. 2008. Site Waste Management Plans. [accessed 7 Jan 2018]. http://www.wrap.org.uk/content/site-waste-management-plans-1.
  • WRAP. 2009. Designing out Waste: a design team guide for buildings. [accessed 7 Jan 2018]. Available from http://www.modular.org/marketing/documents/DesigningoutWaste.pdf.
  • WRAP. 2010. Setting a requirement for Waste Minimisation and Management. [accessed 7 Jan 2018]. http://www.wrap.org.uk/sites/files/wrap/WRAP%206pp.pdf.
  • WRAP. 2011a. Designing-out Waste Tool for Buildings. [accessed 7 Jan 2018]. http://dowtb.wrap.org.uk.
  • WRAP. 2011b. Net Waste Tool. [accessed 7 Jan 2018]. http://nwtool.wrap.org.uk.
  • Xu J, Shi Y, Xie Y, Zhao S. 2019. A BIM-based construction and demolition waste information management system for greenhouse gas quantification and reduction. J Clean Prod. 229:308–324.
  • Yin X, Liu H, Chen Y, Al-Hussein M. 2019. Building information modelling for off-site construction: Review and future directions. Autom Constr. 101:72–91.

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