Advanced search
Publication Cover
International Journal of Pavement Engineering Volume 24, 2023 - Issue 2
Submit an article Journal homepage
208
Views
0
CrossRef citations to date
0
Altmetric
Research Article

Key performance indicators of aggregate base course waste management during the construction phase of a road project from the contractor’s perspective

K. J. A. W. L. JayasingheDepartment of Building Economics, University of Moratuwa, Moratuwa, Sri Lanka
,
B. A. K. S. PereraDepartment of Building Economics, University of Moratuwa, Moratuwa, Sri LankaORCID Iconhttps://orcid.org/0000-0002-4542-8890
ORCID Icon &
G. P. D. P. SenanayakeDepartment of Building Economics, University of Moratuwa, Moratuwa, Sri LankaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0003-4492-1832
ORCID Icon
Article: 2094924 | Received 01 Nov 2021, Accepted 22 Jun 2022, Published online: 11 Jul 2022

References

  • Adewuyi, T. and Otali, M., 2013. Evaluation of causes of construction material waste – case of rivers state, Nigeria. Ethiopian Journal of Environmental Studies and Management, 6 (6), 746–753.
  • Aiyetan, O. and Smallwood, J., 2013. Materials management and waste minimisation on construction sites in Lagos state, Nigeria. In: 4th International conference on engineering, project, and production management, vol. 2, 1161–1172. Pingtung: Association of Engineering, Project, and Production Management.
  • Ajayi, S.O., et al., 2017. Critical management practices influencing on-site waste minimisation in construction projects. Waste Management, 59, 330–339.
  • Akanni, P.O., Oke, A.E., and Omotilewa, O.J., 2014. Implications of rising cost of building materials in Lagos state Nigeria. SAGE Open, 4 (4), 2158244014561213.
  • Al-Hajj, A. and Hamani, K., 2011. Material waste in the UAE construction industry: main causes and minimisation practices. Architectural Engineering and Design Management, 7 (4), 221–235.
  • Ameyaw, E.E., et al., 2016. Application of Delphi method in construction engineering and management research: a quantitative perspective. Journal of Civil Engineering and Management, 22 (8), 991–1000.
  • Armijo, C., Puma, A., and Ojeda, S., 2011. A set of indicators for waste management programs. In: 2nd International conference on environmental engineering and applications (IPCBEE 2011), vol. 17. Singapore: IACSIT Press.
  • Aziz, R.F. and Abdel-Hakam, A.A., 2016. Exploring delay causes of road construction projects in Egypt. Alexandria Engineering Journal, 55 (2), 1515–1539.
  • Bamigboye, G.O., et al., 2021. Waste materials in highway applications: an overview on generation and utilization implications on sustainability. Journal of Cleaner Production, 283, 124581.
  • Basias, N. and Pollalis, Y., 2018. Quantitative and qualitative research in business and technology: justifying a suitable research methodology. Review of Integrative Business and Economics Research, 7 (1), 91–105.
  • Begum, R.A., et al., 2009. Attitude and behavioral factors in waste management in the construction industry of Malaysia. Resources, Conservation and Recycling, 53, 321–328.
  • Bekr, G.A., 2014. Study of the causes and magnitude of wastage of materials on construction sites in Jordan. Journal of Construction Engineering, 2014, 1–6.
  • Campbell, S., et al., 2020. Purposive sampling: complex or simple? Research case examples. Journal of Research in Nursing, 25 (8), 652–661.
  • Choudhari, S. and Tindwani, A, 2017. Logistics optimisation in road construction project. Construction Innovation, 17 (2), 158–179.
  • Chowdhury, R., Apul, D., and Fry, T., 2010. A life cycle based environmental impacts assessment of construction materials used in road construction. Resources, Conservation and Recycling, 54 (4), 250–255.
  • Coelho, H.M.G., Lange, L.C., and Coelho, L.M.G., 2012. Proposal of an environmental performance index to assess solid waste treatment technologies. Waste Management, 32, 1473–1481.
  • Dainty, A. and Brooke, R., 2004. Towards improved construction waste minimisation: a need for improved supply chain integration? Structural Survey, 22 (1), 20–29.
  • Ding, Z., Yi, G., Tam, V. W., and Huang, T., 2016. A system dynamics-based environmental performance simulation of construction waste reduction management in China. Waste Management, 51, 130–141.
  • Ekanayake, E.M.K. and Perera, B.A.K.S., 2016. Appropriate delay analysis techniques to analyse delays in road construction projects in Sri Lanka. Built Environment Project and Asset Management, 6 (5), 521–534.
  • Etikan, I., Musa, S.A., and Alkassim, R.S., 2016. Comparison of convenience sampling and purposive sampling. American Journal of Theoretical and Applied Statistics, 5 (1), 1–4.
  • Faniran, O. and Caban, G., 1998. Minimising waste on construction project sites. Engineering, Construction and Architectural Management, 5 (2), 182–188.
  • Gad, G.M. and Shane, J.S., 2012. A Delphi study on the effects of culture on the choice of dispute resolution methods in international construction contracts. In: Hubo Cal, et al., ed. Construction Research Congress 2012: Construction Challenges in a Flat World Indiana, 1–10. United States, VA: ASCE Library.
  • Hsu, C.C. and Sandford, B.A., 2007. The Delphi technique: making sense of consensus. Practical Assessment, Research, and Evaluation, 12 (1), 1–8.
  • Hung, F.C. and Kamaludin, N.S., 2017. Professionals’ views on material wastage level and causes of construction waste generation in Malaysia. Malaysian Construction Research Journal, 21 (1), 33–54.
  • Hussin, J.M., Rahman, I.A., and Memon, A.H., 2013. The way forward in sustainable construction: issues and challenges. International Journal of Advances in Applied Sciences, 2 (1), 15–24.
  • Islam, M.S. and Nepal, M., 2016. A fuzzy-Bayesian model for risk assessment in power plant projects. Procedia Computer Science, 100, 963–970.
  • Jefferson, I., et al., 2007. Sustainability indicators for environmental geotechnics. Proceedings of the Institution of Civil Engineers – Engineering Sustainability, 160 (2), 57–78.
  • Johnston, H. and Mincks, W.R., 1995. Cost-effective waste minimization for construction managers. Cost Engineering, 37 (1), 31.
  • Kang, D.H., et al., 2011. Recycled materials as substitutes for virgin aggregates in road construction: hydraulic and mechanical characteristics. Soil Science Society of America Journal, 75 (4), 1265–1275.
  • Kanimozhi, G. and Latha, P., 2014. Material management in construction industry. Indian Journal of Applied Research, 4 (4), 1–3.
  • Koshy, R. and Apte, E.M., 2012. Waste minimisation of construction materials on bridge site (cement and reinforcement steel) – a regression and correlation analysis. International Journal of Engineering and Innovative Technology, 2 (1), 6–14.
  • Kothari, C.R., 2004. Research methodology, methods and techniques. 2nd ed. New Delhi: New Age.
  • Krishna, U.S. and Kumar, C.N., 2020. A case study on maintenance of bituminous concrete pavement considering life cycle cost analysis and carbon footprint estimation. International Journal of Construction Management, 1–9.
  • Kulatunga, U., et al., 2006. Attitudes and perceptions of construction workforce on construction waste in Sri Lanka. Management of Environmental Quality: An International Journal, 17 (1), 57–72.
  • Lauritzen, E.K., 1998. Emergency construction waste management. Safety Science, 30 (1–2), 45–53.
  • Ling, F.Y. and Peh, S., 2005. Key performance indicators for measuring contractors’ performance. Architectural Science Review, 48 (4), 357–365.
  • Ling, F.Y.Y. and Nguyen, D.S.A., 2013. Strategies for construction waste management in Ho Chi Minh city, Vietnam. Built Environment Project Asset Management, 3 (1), 141–156.
  • Lu, W., et al., 2015. Benchmarking construction waste management performance using big data. Resources, Conservation and Recycling, 105, 49–58.
  • Luangcharoenrat, C., et al., 2019. Factors influencing construction waste generation in building construction: Thailand’s perspective. Sustainability, 11 (13), 3638–3617.
  • Madhavarao, B., Kothuri, M., and Asadi, S., 2018. A critical analysis of material management techniques in construction project. International Journal of Civil Engineering Technology, 9 (4), 826–835.
  • Mahajan, A. and Aher, P., 2017. Scenario of construction material waste and its effects on cost wastage in Nasik. International Research Journal of Engineering and Technology, 4 (5), 1512–1516.
  • Majer, S. and Budzinski, B., 2018. Utilization of recycled materials in road construction. Global Multidisciplinary Scientific Geo Conference: SGEM, 18 (4.2), 247–253.
  • Manowong, E., 2012. Investigating factors influencing construction waste management efforts in developing countries: an experience from Thailand. Waste Management & Research, 30 (1), 5671.
  • Mansour, H., et al., 2020. Development of an impact-on-performance index (IPI) for construction projects in Malaysia: a Delphi study. International Journal of Construction Management, 1–10.
  • Martinez-Arguelles, G., et al., 2019. Life cycle assessment of natural and recycled concrete aggregate production for road pavements applications in the northern region of Colombia: case study. Transportation Research Record, 2673 (5), 397–406.
  • Nagapan, S., et al., 2012. Identifying causes of construction waste – case of central region of peninsula Malaysia. Integrated Engineering, 4 (2), 22–28.
  • Nworie, J., 2011. Using the Delphi technique in educational technology research. Tech Trends, 55 (5), 24–30.
  • Ogbu, C. and Adindu, C., 2019. Direct risk factors and cost performance of road projects in developing countries: contractors’ perspective. Journal of Engineering, Design and Technology, 18 (2), 326–342.
  • Osmani, M., Glass, J., and Price, A., 2006. Architect and contractor attitudes to waste minimisation. Proceedings of the Institution of Civil Engineers-Waste and Resource Management, 159, 65–72.
  • Park, W.J., et al., 2020. Identifying the major construction wastes in the building construction phase based on life cycle assessments. Sustainability, 12 (19), 8096.
  • Parmenter, D, 2007. Key performance indicators: developing, implementing, and using winning KPIs. New York: Wiley.
  • Passarini, F., et al., 2011. Indicators of waste management efficiency related to different territorial conditions. Waste Management, 31, 785–792.
  • Patel, V. and Poitroda, J., 2017. A critical literature review on the impact of material management on construction project delivery. International Journal of Creative Research Thoughts, 5 (4), 1829–1836.
  • Perera, B.A.K.S., Perera, C.S.R., and Jayalath, C., 2020. Contractor’s perspective on key performance indicators of cost control in Asian, Middle Eastern, and European construction projects. International Journal of Construction Education and Research, 1–17.
  • Perera, B.A.K.S., et al., 2014. Enhancing the effectiveness of risk management practices in Sri Lankan road construction projects: a Delphi approach. International Journal of Construction Management, 14 (1), 1–14.
  • Perera, B.A.K.S. and Shandraseharan, A., 2021. A framework for aggregate base course waste control in road construction projects. International Journal of Construction Management, 1–12.
  • Pescaroli, G., et al., 2020. A Likert scale-based model for benchmarking operational capacity, organisational resilience, and disaster risk reduction. International Journal of Disaster Risk Science, 11 (3), 404–409.
  • Priyaruwan, E.A., Shandraseharan, A., and Perera, B.A., 2020. Management of aggregate base course wastage in road construction projects. FARU Journal, 7 (1), 40–47.
  • Radujkovic, M., Vukomanovic, M., and Dunovic, I.B., 2010. Application of key performance indicators in South-Eastern European construction. Journal of Civil Engineering and Management, 16 (4), 521–530.
  • Rani, H.A., 2017. The impact of construction waste to the environmental on project development in Aceh. International Journal of Management, Information Technology and Engineering, 5 (4), 1–8.
  • Rathinakumar, V., et al., 2018. Construction material management through inventory control techniques. International Journal of Engineering and Technology, 7 (3.12), 899–903.
  • Ray, A., et al., 2021. Use of C&D waste in road construction: a critical review. IOP Conference Series: Materials Science and Engineering, 1116 (1), 012159.
  • Saidu, I. and Shakantu, W., 2017. A post-contract project analysis of material waste and cost overrun on construction sites in Abuja, Nigeria. Acta Structilia, 24 (2), 77–105.
  • Salmenperä, H., et al., 2021. Critical factors for enhancing the circular economy in waste management. Journal of Cleaner Production, 280, 124339.
  • Sangiorgi, C., et al., 2015. Construction and demolition waste recycling: an application for road construction. International Journal of Pavement Engineering, 16 (6), 530–537.
  • Sebastian, R.M. and Louis, J., 2022. Waste management in Northwest Territories, Canada: current practices, opportunities, and challenges. Journal of Environmental Chemical Engineering, 10 (1), 106930.
  • Shen, L.Y. and Tam, V., 2002. Implementation of environmental management in the Hong Kong construction industry. International Journal of Project Management, 20 (7), 535–543.
  • Skoyles, E.R. and Skoyles, J.R., 1987. Waste prevention on site. London: Mitchell.
  • Spišáková, M., et al., 2021. Construction waste audit in the framework of sustainable waste management in construction projects—case study. Buildings, 11 (2), 61.
  • Tabassum, A., 2016. Life cycle cost analysis and cost savings for road projects. PM World Journal, 5 (6), 1–9.
  • Tahmoorian, F., et al., 2020. Evaluation of volumetric performance of asphalt mixtures containing recycled construction aggregate (RCA). International Journal of Pavement Engineering, 1–15.
  • Tam, V.W. and Lu, W., 2016. Construction waste management profiles, practices, and performance: a cross-jurisdictional analysis in four countries. Sustainability, 8 (2), 190–206.
  • Taylor-Powell, E., 2003. Program development and evaluation: analyzing quantitative data, 6.
  • Teo, M. and Loosemore, M., 2001. A theory of waste behaviour in the construction industry. Construction Management and Economics, 19 (7), 741–751.
  • Titi, H.H., et al., 2018. Long term performance of gravel base course layers in asphalt pavements. Case Studies in Construction Materials, 9, e00208.
  • Udawatta, N., et al., 2015. Attitudinal and behavioural approaches to improving waste management on construction projects in Australia: benefits and limitations. International Journal of Construction Management, 15 (2), 137–147.
  • Viguri, J.R., et al., 2012. Material flow indicators and carbon footprint for MSW management systems: analysis and application at regional level, Cantabria, Spain. Resources, Conservation and Recycling, 68, 54–66.
  • Vivanco, D.F., Ventosa, I.P., and Durany, X.G., 2012. Building waste management core indicators through spatial material flow analysis: net recovery and transport intensity indexes. Waste Management, 32, 2496–2510.
  • Wahab, A. and Lawal, A., 2011. An evaluation of waste control measures in construction industry in Nigeria. Journal of Environmental Science and Technology, 5 (3), 246–254.
  • Wang, J., Li, Z., and Tam, V.W., 2015. Identifying best design strategies for construction waste minimisation. Journal of Cleaner Production, 92, 237–247.
  • Wang, Y.J., et al., 2004. A systems analysis tool for construction and demolition wastes management. Wastes Management, 24 (10), 989–997.
  • Washington State Department of Transportation [WSDOT], 2015. Cost estimating manual for projects. Engineering and Regional Operations: SAEO. Available from: https://www.wsdot.wa.gov/publications/fulltext/CEVP/EstimatingGuidelines.pdf [Accessed 29 Jun 2021].
  • Waty, M., et al., 2018. Modeling of waste material costs on road construction project. International Journal of Engineering & Technology, 7 (2), 474–477.
  • Wilts, H., 2012. National waste prevention programs: indicators on progress and barriers. Waste Management and Research, 30 (9), 29–35.
  • Wong, E.O.W. and Yip, R.C.P., 2004. Promoting sustainable construction waste management in Hong Kong. Construction Management and Economics, 22, 563566.
  • Xia, B. and Chan, A.P.C., 2012. Measuring complexity for building projects: a Delphi study. Engineering, Construction and Architectural Management, 19 (1), 7–24.
  • Yuan, H., 2013. Key indicators for assessing the effectiveness of waste management in construction projects. Ecological Indicators, 24, 476–484.
  • Zahoor, H., et al., 2017. The factors contributing to construction accidents in Pakistan: their prioritisation using the Delphi technique. Engineering, Construction and Architectural Management, 24 (3), 463–485.
  • Zhao, X., et al., 2022. Construction and demolition waste management in Australia: a mini review. Waste Management & Research, 40 (1), 34–46.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.