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Identification of constraints for an effective application of construction waste management plan in Poland

Treść / Zawartość
Identyfikatory
Warianty tytułu
PL
Identyfikacja ograniczeń dla skutecznego stosowania planu gospodarki odpadami budowlanymi
Języki publikacji
EN
Abstrakty
EN
The aim of this study is to identify the constraints that affect the effective usage of the site waste management plan (SWMP). A substantial review of the literature was carried out to identify the constraining factors that affect the site waste management plan tool. Questionnaires were administered based on a five-point Likert scale and the data were assessed and analyzed using IBM SPSS version 28. The outcome showed that the knowledge of the SWMP is still very low in the Polish construction sector. Only 6% have a written SWMP while 16% have used this tool in their previous project. Hence, the need for the increased awareness of the SWMP as one of the waste management strategies. The lack of adequate monitoring and control of the SWMP, lack of awareness, time required for the preparation of the tool were identified as the top constraints. The solutions identified include; increased level of awareness and education, the inclusion of the SWMP as part of the contract documentation requirement, adequate training of the site personnel, and presence of waste manager.
PL
Celem niniejszego artykułu jest identyfikacja ograniczeń, które wpływają na efektywne wykorzystanie zakładowego planu gospodarki odpadami (SWMP). Dokonano gruntownego przeglądu literatury w celu zidentyfikowania czynników ograniczających, które wpływają na narzędzie planu gospodarowania odpadami na terenie zakładu wytwarzającego odpady. Następnie przeprowadzono badanie ankietowe z formularzami, w których zastosowano pięciostopniową skalę Likerta. Pozyskane dane zostały poddane ocenie i analizie przy użyciu systemu IBM SPSS wersja 28. Wyniki badań ankietowych pokazały, że w polskim sektorze budowlanym wiedza na temat SWMP jest nadal bardzo niska. W kolejnych badaniach tylko 6% i 16% badanych podmiotów posiada program SWMP i odpowiednio używało tego narzędzia w którymkolwiek ze swoich poprzednich projektów. Wynika stąd potrzeba zwiększenia świadomości SWMP jako jednej ze strategii gospodarki odpadami. Jako główne ograniczenia uznano brak odpowiedniego monitorowania i kontroli programu SWMP, brak świadomości, czas potrzebny na przygotowanie narzędzia. Zaproponowane rozwiązania obejmują; podniesienie poziomu świadomości i edukacji, uwzględnienie SWMP jako elementu wymogu dokumentacji kontraktowej, odpowiednie przeszkolenie personelu budowy oraz obecność osoby zarządzającej odpadami.
Rocznik
Strony
475--489
Opis fizyczny
Bibliogr. 30 poz., il., tab.
Twórcy
  • Wroclaw University of Science and Technology, Faculty of Civil Engineering and Transport, Wrocław, Poland
  • Wroclaw University of Science and Technology, Faculty of Civil Engineering and Transport, Wrocław, Poland
  • Poznan University of Technology, Faculty of Civil Engineering and Transport, Poznań, Poland
Bibliografia
  • [1] Statista Research Department, “Value added of U.S. construction industry as a percentage of GDP 2007-2020”. [Online]. Available: https://www.statista.com/statistics/192049/value-added-by-us-construction-as-a-percentage-of-gdp-since-2007/. [Accessed: 20 February 2022].
  • [2] Statista Research Department, “EU-28: Employed persons in the building construction industry 2008-2019”. [Online]. Available: https://www.statista.com/statistics/763219/total-employed-persons-in-building-construction-industry-eu/. [Accessed: 20 February 2022].
  • [3] U. Kulatunga, D. Amaratunga, R. Haigh, and R. Rameezdeen, “Attitudes and perceptions of construction workforce on construction waste in Sri Lanka”, Management of Environmental Quality: An International Journal, vol. 17, no. 1, pp. 57-72, 2006, doi: 10.1108/14777830610639440.
  • [4] M. Behera, S. Bhattacharyya, A. Minocha, R. Deoliya, and S.J.C. Maiti, “Recycled aggregate from C&D waste & its use in concrete - A breakthrough towards sustainability in construction sector: A review”, Construction and Building Materials, vol. 68, pp. 501-516, 2014, doi: 10.1016/j.conbuildmat.2014.07.003.
  • [5] C. Kibert and R. Ries, “Green building education and research at the University of Florida”, in Proceedings of the 45th ASC International Annual Conference, T. Sulbaran, Ed. Gainesville, Fla, Florida, USA, 2009.
  • [6] S.H. Fauziah and P. Agamuthu, “Trends in sustainable landfilling in Malaysia, a developing country”, Waste Management and Research”, vol. 30, no. 7, pp. 656-663, 2012, doi: 10.1177/0734242X12437564.
  • [7] O. Ortiz, J.C. Pasqualino, G. Diez, and F. Castells, “The environmental impact of the construction phase: an application to composite walls from a life cycle perspective”, Resources, Conservation and Recycling”, vol. 54, no. 11, pp. 832-840, 2010, doi: 10.1016/j.resconrec.2010.01.002.
  • [8] Environmental Protection Department (EPD), “Strategic Landfills”. [Online]. Available: http://www.epd.gov.hk/epd/english/environmentinhk/waste/prob_solutions/msw_strategic.html. [Accessed: 28 September 2021].
  • [9] C. Knoeri, C.R. Binder, and H.J. Althaus, “Decisions on recycling: Construction stakeholders’ decisions regarding recycled mineral construction materials”, Resources, Conservation and Recycling, vol. 55, no. 11, pp. 1039-1050, 2011, doi: 10.1016/j.resconrec.2011.05.018.
  • [10] Eurpean Commission, “Strategy for the sustainable competitiveness of the construction sector and its enterprises, communication from the commission to the European Parliament and the council”, 31.7.2012 COM(2012) 433 final, Brussels, 2012.
  • [11] Deloitte, “Construction and Demolition Waste management in Poland - V2 September 2015”. [Online]. Available: http://ec.europa.eu/environment/waste/studies/deliverables/CDW_Poland_Factsheet_Final.pdf. [Accessed: 10 March 2022].
  • [12] V.W.Y. Tam, L.Y. Shen, I. Fung, and J.Y. Wang, “Controlling construction waste by implementing governmental ordinances in Hong Kong”, Construction Innovation, vol. 7, no. 2, pp. 149-166, 2007, doi: 10.1108/14714170710738522.
  • [13] B. Mcdonald and M. Smithers, “Implementing a waste management plan during the construction phase of a project: A case study”, Construction Management and Economics, vol. 16, no. 1, pp. 71-78, 1998, doi: 10.1080/014461998372600.
  • [14] P.M. Guthrie, S.J. Coventry, and A.C. Woolveridge, Waste minimization and recycling in construction: Technical review. London: CIRIA, 1999.
  • [15] Transparency Market Research, “Construction waste market - global industry analysis, size, share, growth, trends, and forecast 2017-2025”. [Online]. Available: https://www.transparencymarketresearch.com/construction-waste-market.html. [Accessed: 25 September 2021].
  • [16] C. Arenas, Y. Galiano, C. Leiva, L.F. Vilches, F. Arroyo, R. Villegas, and C. Pereira, “Development of a fly ash-based geopolymeric concrete with construction and demolition wastes as aggregates in acoustic barriers”, Construction Building Materials, vol. 134, pp. 433-442, 2017, doi: 10.1016/j.conbuildmat.2016.12.119.
  • [17] Bureau of Transportation Statistics, “Municipal solid waste and construction & demolition debris”. [Online]. Available: https://www.bts.gov/archive/subject_areas/freight_transportation/faf/faf4/debris. [Accessed: 25 September 2021].
  • [18] National Waste Prevention Program Annual Report 2019. Environmental Protection Agency, 2020.
  • [19] M. Mália, J. de Brito, M. Duarte Pinheiro, and M. Bravo, “Construction and demolition waste indicators”, Waste Management and Research, vol. 31, no. 3, pp. 241-255, 2013, doi: 10.1177/0734242X12471707.
  • [20] OhioEPA.gov, “Definition of Construction and Demolition Debris”. [Online]. Available: https://ohioepa.custhelp.com/app/answers/detail/a_id/2317/~/definition-of-construction-and-demolition-debris. [Accessed: 20 April 2022].
  • [21] T. Napier, “Construction waste management”, Whole Building Design Guide (WBDG). [Online]. Available: https://www.wbdg.org/resources/construction-waste-management. [Accessed: 9 April 2022].
  • [22] O. Lymar, “Waste from demolition, construction and damaged buildings during wartime”, Ukrainian Institute of the Future, 2022. [Online]. Available: https://uifuture.org/publications/vidhody-vid-znesennya-budivnycztva-ta-poshkodzhenyh-budivel-u-vijskovyj-chas/. [Accessed: 24 October 2022].
  • [23] V.S. Paola, D.R.M. Mercedes, and S.A.G. Alicia, “European legislation and implementation measures in the management of construction and demolition waste”, The Open Construction and Building Technology Journal, vol. 5, pp. 256-161, 2011, doi: 10.2174/1874836801105010156.
  • [24] National Waste Management Plan 2022. Annex to the Resolution No 88 of the Council of Ministers of 1 July 2016 (item 784). Warsaw, 2016.
  • [25] K. Kabirifar, M. Mojtahedi, C. Wang, and V.W. Tam, “Construction and demolition waste management contributing factors coupled with reduce, reuse, and recycle strategies for effective waste management: A review”, Journal of Cleaner Production, vol. 263, pp. 121-265, 2020, doi: 10.1016/j.jclepro.2020.121265.
  • [26] “Directive 2008/98/EC of the European Parliament and of the council of 19 November 2008 on waste and repealing certain Directives”, European Parliament, 2008.
  • [27] V.W.Y. Tam, “On the effectiveness in implementing a waste-management-plan method in construction”, Waste Management, vol. 28, no. 6, pp. 1072-1080, 2008, doi: 10.1016/j.wasman.2007.04.007.
  • [28] M. Hardie, S. Khan, A. O’Donell, and G. Miller, “The efficacy of waste management plans in Australian commercial construction refurbishment projects”, Australian Journal of Construction Economics and Building, vol. 7, no. 2, pp. 26-36, 2007, doi: 10.5130/ajceb.v7i2.2988.
  • [29] C. McGrath, “Waste minimization in practice”, Resources, Conservation and Recycling, vol. 32, no. 3-4, pp. 227-238, 2001, doi: 10.1016/S0921-3449(01)00063-5.
  • [30] A.A. Fashina, M.A. Omar, A.A. Sheikh, and F.F. Fakunle, “Exploring the significant factors that influence delays in construction projects in Hargeisa”, Heliyon Journal, vol. 7, no. 4, 2021, doi: 10.1016/j.heliyon.2021.e06826.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-92b58ff8-65f8-4b29-9a55-f95b8461c181
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