Reduce, Reuse and Recycle: Grand Challenges in Construction Recovery Process
Authors: Abioye A. Oyenuga, Rao Bhamidimarri
Abstract:
Hurling a successful Construction and Demolition Waste (C&DW) recycling operation around the globe is a challenge today, predominantly because secondary materials markets are yet to be integrated. Reducing, Reusing and recycling of (C&DW) have been employed over the years, and various techniques have been investigated. However, the economic and environmental viability of its application seems limited. This paper discusses the costs and benefits in using secondary materials and focus on investigating reuse and recycling process for five major types of construction materials: concrete, metal, wood, cardboard/paper and plasterboard. Data obtained from demolition specialists and contractors are considered and evaluated. The research paper found that construction material recovery process fully incorporate a 3R’s principle contributing to saving energy and natural resources. This scrutiny leads to the empathy of grand challenges in construction material recovery process. Recommendations to deepen material recovery process are also discussed.
Keywords: Construction & Demolition Waste (C&DW), 3R concept, Recycling, Reuse, Life-Cycle Assessment (LCA), Waste Management.
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1100146
Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 5102References:
[1] Srour, I. M., Tamraz, S., Chehab, G, R. and EL-Fadel, M. (2012), “A Framework for Managing Construction Demolition Waste: Economic determinants of Recycling”, Construction Research Congress 2012 ASCE.
[2] Chen, Z. H. Li and Wong, T. C. (2002), “An application for bar-code System for Reducing construction waste”, Automation in Construction, 11(5) pp. 521-533.
[3] Defra, (2007), “Waste Strategy for England 2007” (Online) Available at: www.gov.uk/government (Accessed on 15/02/2015).
[4] Defra, (2013), “Construction on Recovery and Recycling Targets for Packaging Waste for 2013-2017” (Online) Available at: www.gov.uk/government (Accessed on 26/02/2015).
[5] Hunt, N and Shields, J (2014), “Waste Management Strategy 2014 and beyond” Loughborough University.
[6] Crawford, R.H. (2011), “Life Cycle Assessment in the Built Environment”, 1st edn., Spon Press, pp. 15-40.
[7] Centre for Sustainable Systems (2013), “Municipal Solid Waste” University of Michigan 2013 Pub No. CSS04-15, (Online) Available at: http://css.snre.umich.edu/css_doc (Accessed on 08/03/2015).
[8] McGrath, C. (2001), “Waste Minimisation in Practice”, Resources, Conservation and Recycling, 32(3-4), pp.227-238.
[9] Hao, J. L., Hill, M. J. and Shen, L., Y. (2008), “Managing Construction Waste On-site through system dynamics modelling: the case of Hong Kong”, Engineering, Construction and Architectural Management, 15(2), pp.103-113
[10] Hwang, Bon-Gang and Yeo, Z. B. (2011), “Perception on Benefits of Construction Waste management in Singapore Construction Industry” Engineering, Construction and Architectural Management, 18(4), PP.394-406.
[11] Bravo, F. N. (2010), “Recycling and Reuse of Construction and Demolition Debris: A tool for local economic development”, IDEASS international secretariat
[12] Poon, C. S. Ann, T. W. and Ng, L. H. (2001), “On-site Sorting of Construction and Demolition waste in Hong Kong, Resources, Conservation and Recycling, 32 (2001), p. 157-172.
[13] Zhao, W. Leeftink, R. B. and Rotter, V. S. (2010), “Evaluation of economic feasibility for recycling and demolition waste in China: The Case study of Chongqing, Resources, Conservation and Recycling, 54(6), pp. 1-8.
[14] Tam, V. W.Y. and Tam C. M. (2006), “Evaluations of Existing waste Recycling methods: A Hong Kong study”, Building and Environment, Elsevier, 41(2006), pp. 28-32.
[15] Tam, V. W.Y. (2011), “Rate of Reusable and Recyclable Waste in Construction”, The Open Waste Management Journal, 4(1), pp. 28-32.
[16] Aadal, H., Rad, K. G., Fard, A. B., Sabet, P. G. P., and Harirchian, E. (2013), “Implementing 3R Concept in Construction Waste Management at Construction Site”, J. Appl. Environ. Biol. Sci., 3(10), pp. 160-166
[17] Duran, X., Lenihan, H. and O’Regan, B. (2006) “A Model for assessing the economic Viability of construction and demolition waste recycling” Resource Conservation and Recycling.
[18] Shen, L. Y., Tam, V. W.Y. and Tam, C. M. (2002), “Modelling waste Flow practice on construction site”, paper presented at the First International Conference on Construction in the 21st Century, Miami, FL.
[19] El-Haggar, S. M. (2007), “Sustainable Industrial Design and Waste Management: Cradle-to-cradle for Sustainable Development, Elsevier Academic Press Maryland Heights, MO.