Vol. 1 No. 1 (2023): Emirati Journal of Civil Engineering and Applications
Articles

Evaluation of the Circular Economy Potential in Improving Sustainability in the Construction Industry in the UAE

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  • Ghanim Kashwani,
  • Alex Bell

Published 2023-07-30

Keywords

  • Circular economy,
  • Sustainability,
  • Policy,
  • Evaluation

How to Cite

Evaluation of the Circular Economy Potential in Improving Sustainability in the Construction Industry in the UAE. (2023). Emirati Journal of Civil Engineering and Applications, 1(1), 4-20. https://doi.org/10.54878/n06ene05

Abstract

The civil engineering and construction industry is usually highlighted as primary contributing factors for resource consumption and scarcity. Many researchers perceive that as a normal event with the respect to the high demand for construction that comes concerning the growing world population. As a consequence of this demand, a need for resources and energy efficiency becomes extremely critical and vital. The circular economy could be presented as one of the potential factors to regulate the construction industry with a circular business model. The reason that the professionals highly suggest this mechanism is due to its suitability with the vibrant and dynamic nature of the construction industry that usually causes a communication gap between the main stakeholders. The literature shows that this could be a result of a lack of collaboration and creating unnecessary complex steps that affect the productivity and durability of the business. Hence, a need for a holistic and integrated framework is necessary to regulate and manage the flow work of resources and energy efficiency process. In this study, the Sustainability Development Goals (SDGs) will be highlighted as major key performance indicators to ensure the accuracy and feasibility of the circular economy. Through this study, the survey and the interviews showed that three areas could be considered as challenging to be applied to circular economy in construction in The United Arab Emirates (UAE): regulatory factors, economic factors, and technological factors.

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References

  1. Abidin, N. Z. (2010). Investigating the awareness and application of sustainable construction concept by Malaysian developers. Habitat international, 34(4), 421-426.
  2. Ali Sayyad and Jameel Maki. MEASUREMENT OF ANGLE BETWEEN SUBSPACES IN DIRECT SUM DECOMPOSITION. IJADT. 2022. Vol. 1(2):91-99. DOI: 10.54878/IJADT.174
  3. Al-Hajj, A., & Hamani, K. (2011). Material waste in the UAE construction industry: Main causes and minimization practices. Architectural engineering and design management, 7(4), 221- 235.
  4. AL-Hyari, A. M. (2017). The Integration of Sustainability in Project Management and Its Impact on UAE Construction Projects Performance (Doctoral dissertation, The British University in Dubai (BUiD)).
  5. Al-Naqbi, A. K., & Alshannag, Q. (2018). The status of education for sustainable development and sustainability knowledge, attitudes, and behaviors of UAE University students. International Journal of Sustainability in Higher Education.
  6. Alwan, Z., Jones, P., & Holgate, P. (2017). Strategic sustainable development in the UK construction industry, through the framework for strategic sustainable development, using Building Information Modelling. Journal of Cleaner Production, 140, 349-358.
  7. Asif, M. (2016). Growth and sustainability trends in the buildings sector in the GCC region with particular reference to the KSA and UAE. Renewable and Sustainable Energy Reviews, 55, 1267-1273.
  8. Berkes, F., & Folke, C. (1994). Linking social and ecological systems for resilience and sustainability. Beijer International Institute of Ecological Economics, The Royal Swedish Academy of Sciences.
  9. Bocken, N. M., & Short, S. W. (2021). Unsustainable business models–Recognising and resolving institutionalised social and environmental harm. Journal of Cleaner Production, 312, 127828.
  10. Brown, J. (2009). Democracy, sustainability and dialogic accounting technologies: Taking pluralism seriously. Critical Perspectives on Accounting, 20(3), 313-342.
  11. Brochner, J., Ang, G. K., & Fredriksson, G. (1999). Sustainability and the performance concept: encouraging innovative environmental technology in construction. Building Research & Information, 27(6), 367-372.
  12. Brulle, R. J. (2010). From environmental campaigns to advancing the public dialog: Environmental communication for civic engagement. Environmental Communication, 4(1), 82-98.
  13. Carpenter, S. R., & Gunderson, L. H. (2001). Coping with Collapse: Ecological and Social Dynamics in Ecosystem Management: Like flight simulators that train would-be aviators, simple models can be used to evoke people's adaptive, forwardthinking behavior, aimed in this instance at sustainability of human–natural systems. BioScience, 51(6), 451-457.
  14. Castellani, V., & Sala, S. (2010). Sustainable performance index for tourism policy development. Tourism management, 31(6), 871- 880.
  15. Cox, R. (1987). The rich harvest of Abraham Maslow. Motivation and personality, 245-271.
  16. DAmato, D., Veijonaho, S., & Toppinen, A. (2020). Towards sustainability? Forest-based circular bioeconomy business models in Finnish SMEs. Forest policy and economics, 110, 101848.
  17. De Abreu, M. C. S., & Ceglia, D. (2018). On the implementation of a circular economy: The role of institutional capacity-building through industrial symbiosis. Resources, Conservation and Recycling, 138, 99-109.
  18. Dietz, R., & O'Neill, D. (2013). Enough is enough: Building a sustainable economy in a world of finite resources. Routledge.
  19. Eggenberger, M., & Partidário, M. R. (2000). Development of a framework to assist the integration of environmental, social and economic issues in spatial planning. Impact assessment and project appraisal, 18(3), 201-207.
  20. Elchalakani, M., Aly, T., & Abu-Aisheh, E. (2014). Sustainable concrete with high volume GGBFS to build Masdar City in the UAE. Case Studies in Construction Materials, 1, 10-24.
  21. Elsir Saad, Hessa Alzaabib and Hessa Alzaabib et al. E-Learning Success Factors from Business Perspective. IJADT. 2022. Vol. 1(2):75-90. DOI: 10.54878/IJADT.173
  22. Ferronato, N., Rada, E. C., Portillo, M. A. G., Cioca, L. I., Ragazzi, M., & Torretta, V. (2019). Introduction of the circular economy within developing regions: A comparative analysis of advantages and opportunities for waste valorization. Journal of environmental management, 230, 366-378.
  23. Glass, J. (2012). The state of sustainability reporting in the construction sector. Smart and sustainable built environment.
  24. Hamani, K., & Al-Hajj, A. (2015, July). A conceptual framework towards evaluating construction contractors for sustainability. In The construction, building and real estate research conference of the Royal Institution of Chartered Surveyors RICS COBRA AUBEA (pp. 8-10).
  25. Haugh, H. M., & Talwar, A. (2010). How do corporations embed sustainability across the organization?. Academy of Management learning & education, 9(3), 384-396.
  26. Hendiani, S., & Bagherpour, M. (2019). Developing an integrated index to assess social sustainability in construction industry using fuzzy logic. Journal of cleaner production, 230, 647-662.
  27. Huovila, P., & Koskela, L. (1998, August). Contribution of the principles of lean construction to meet the challenges of sustainable development. In 6th Annual Conference of the International Group for Lean Construction. Guaruja, São Paulo, Brazil (pp. 13- 15).
  28. Johnston, P., Everard, M., Santillo, D., & Robèrt, K. H. (2007). Reclaiming the definition of sustainability. Environmental science and pollution research international, 14(1), 60-66.
  29. Kazim, A. (2010). Strategy for a sustainable development in the UAE through hydrogen energy. Renewable Energy, 35(10), 2257-2269.
  30. Keeble, B. R. (1988). The Brundtland report:‘Our common future’. Medicine and war, 4(1), 17-25.
  31. Keyi Wu and Borja Garcaí de Soto. Spatiotemporal planning simulation of temporary elevators in construction using a game engine. IJADT. 2022. Vol. 1(1):59-74. DOI: 10.54878/IJADT.102
  32. Kirveennummi, A., Mäkelä, J., & Saarimaa, R. (2013). Beating unsustainability with eating: four alternative food-consumption scenarios. Sustainability: Science, Practice and Policy, 9(2), 83-91.
  33. Kjaer, L. L., Pigosso, D. C., Niero, M., Bech, N. M., & McAloone, T. C. (2019). Product/service‐systems for a circular economy: The route to decoupling economic growth from resource consumption?. Journal of Industrial Ecology, 23(1), 22-35.
  34. Milios, L. (2018). Advancing to a Circular Economy: three essential ingredients for a comprehensive policy mix. Sustainability Science, 13(3), 861-878.
  35. Moshood, T. D. (2020). Emerging challenges and sustainability of industry 4.0 era in the Malaysian construction industry. TD Moshood, AQ Adeleke, G. Nawanir, WA Ajibike, RA Shittu, Emerging Challenges and Sustainability of Industry, 4, 1627- 1634.
  36. Moore, J. E., Mascarenhas, A., Bain, J., & Straus, S. E. (2017). Developing a comprehensive definition of sustainability. Implementation Science, 12(1), 1- 8.
  37. Missimer, M., Robèrt, K. H., Broman, G., & Sverdrup, H. (2010). Exploring the possibility of a systematic and generic approach to social sustainability. Journal of Cleaner Production, 18(10-11), 1107-1112.
  38. National Research Council. (1999). Our common journey: a transition toward sustainability. National Academies Press.
  39. Nurse, K. (2006). Culture as the fourth pillar of sustainable development. Small states: economic review and basic statistics, 11, 28-40.
  40. Purvis, B., Mao, Y., & Robinson, D. (2019). Three pillars of sustainability: in search of conceptual origins. Sustainability science, 14(3), 681-695.
  41. Rogers, P. P., Jalal, K. F., & Boyd, J. A. (2012). An introduction to sustainable development. Earthscan.
  42. Roseland, M. (2012). Toward sustainable communities: Solutions for citizens and their governments. New Society Publishers.
  43. Salama, M., & Hana, A. R. (2010, September). Green buildings and sustainable construction in the United Arab Emirates. In Proc. 26th Annual ARCOM Conference (pp. 1397-1405).
  44. Saleh, M. S., & Alalouch, C. (2015). Towards sustainable construction in Oman: Challenges & opportunities. Procedia Engineering, 118, 177-184
  45. Shibieka, A. I., Raheem, T. B. A., & Hittini, B. Y. (2019). Exploring Challenges of Adopting Sustainability Assessment Methods in UAE Perspectives of Project Professionals.
  46. Sim, Y. L., & Putuhena, F. J. (2015). Green building technology initiatives to achieve construction quality and environmental sustainability in the construction industry in Malaysia. Management of Environmental Quality: An International Journal.
  47. Taušová, M., Mihaliková, E., Čulková, K., Stehlíková, B., Tauš, P., Kudelas, D., & Štrba, Ľ. (2019). Recycling of Communal Waste: Current State and Future Potential for Sustainable Development in the EU. Sustainability, 11(10), 2904.
  48. Wildemuth, B. M. (Ed.). (2016). Applications of social research methods to questions in information and library science. ABC-CLIO.
  49. Zsóka, Á., Szerényi, Z. M., Széchy, A., & Kocsis, T. (2013). Greening due to environmental education? Environmental knowledge, attitudes, consumer behavior and everyday proenvironmental activities of Hungarian high school and university students. Journal of Cleaner Production, 48, 126-138.