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A GIS and AHP-based approach to determine potential locations of municipal solid waste collection points in rural areas

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Języki publikacji
EN
Abstrakty
EN
Municipal solid waste collection points (MSWCPs) are places where residents of municipalities can leave their waste free of charge. MSWCPs should operate in every municipality in Poland. The Geographic Information System (GIS) and analytical hierarchy process (AHP) were used in conjunction as tools to determine potential locations of MSWCPs. Due to possible social conflicts related to the location of MSWCPs, three variants of buffer zones for a residential area were adopted. As a result of the spatial analysis carried out using the GIS software, 247 potential locations were identified in variant no. 1 (which accounted for 7.1% of commune area), 167 for variant no. 2 (6.3% of commune area), and 88 for variant no. 3 (3.8% of commune area). The most favourable locations for MSWCPs were determined using the AHP method with additional criteria for which weights were calculated as follows: the area of a designated plot (0.045), actual designation of a plot in the local spatial development plan (0.397), distance from the centre of the village (0.096) and the commune (0.231), and population density of a village (0.231). The highest weights (over 50%) in the AHP analysis were obtained for 12 locations in variant no. 3, two of which had an area over 3 ha. The adopted methodology enabled to identify quasi-optimal solutions for MSWCP locations in the analysed rural commune. This research has the potential to influence future waste management policies by assisting stakeholders in the MSWCP location.
Wydawca
Rocznik
Tom
Strony
94--101
Opis fizyczny
Bibliogr. 29 poz., rys., tab.
Twórcy
  • University of Agriculture in Cracow, Department of Bioprocesses Engineering, Energetics and Automatization, ul. Balicka 116b, 30-149 Kraków, Poland
  • Cracow University of Economics, Department of Microeconomics, Kraków, Poland
  • Cracow University of Economics, Department of Spatial Management, Kraków, Poland
  • University of Agriculture in Cracow, Department of Mechanical Engineering and Agrophysics, Kraków, Poland
Bibliografia
  • AKINCI H., OZALP A.Y., TURGUT B. 2013. Agricultural land use suitability analysis using GIS and AHP technique. Computers and Electronics in Agriculture. Vol. 97 p. 71–82. DOI 10.1016/j.compag.2013.07.006.
  • ARTUN O. 2020. Determination of the Suitable Areas for The Investment of the Wind Energy Plants (WEP) in Osmaniye Using Analytical Hierarchy Process (AHP) and Geographic Information Systems (GIS). European Journal of Science and Technology. No. 20 p. 196–205. DOI 10.31590/ejosat.763866.
  • BÁREKOVÁ A., TÁTOŠOVÁ L., KIŠŠ V., KOVÁČOVÁ M. 2020. Composition of the separated green waste in rural and urban area. Journal of Ecological Engineering. Vol. 21. No. 5 p. 234–239. DOI10.12911/22998993/123120.
  • BEDLA D., DACEWICZ E. 2019. Data clustering analysis in the assessment of wastes using in the sewage filtration. Journal of Water and Land Development. No. 41 (IV–VI) p. 31–36. DOI 10.2478/jwld-2019-0024.
  • BRONIEWICZ E. (ed.) 2017. Gospodarowanie przestrzenią w warunkach zrównoważonego rozwoju [Spatial management in the conditions of sustainable development]. Białystok. OWPB. ISBN 978-83-65596-36-9 pp. 122.
  • CARLOS M., GALLARDO A., EDO-ALCON N, A BASO J.R. 2019. Influence of the municipal solid waste collection systems on the time spent at a collection point: A case study. Sustainability. Vol. 11, 6481. DOI10.3390/su11226481.
  • CHABUK A., AL-ANSARI N., HUSSAIN H.M., KNUTSSON S., PUSCH R. 2016. Landfill site selection using geographic information system and analytical hierarchy process: A case study Al-Hillah Qadhaa, Babylon, Iraq. Waste Management & Research. Vol. 34(5) p. 427–437. DOI10.1177/0734242x16633778.
  • DEMESOUKA O.E., ANAGNOSTOPOULOS K.P., S ISKOS E. 2019. Spatial multicriteria decision support for robust land-use suitability: the case of landfill site selection in Northestern Greece. European Journal of Operational Research. Vol. 272(2) p. 574–586. DOI10.1016/j.ejor.2018.07.005.
  • DEMESOUKA O.E., VAVATSIKOS A.P., ANAGNOSTOPOULOS K.P. 2013. Suitability analysis for siting MSW landfills and its multicriteria spatial decision support system: method, implementation and case study. Waste Management. Vol. 33(5) p. 1190–1206. DOI10.1016/j.wasman.2013.01.030.
  • GŁOWACKI J., KOPYCIŃSKI P., MAMICA Ł., MALINOWSKI M. 2019. Identyfikacja i delimitacja obszarów gospodarki o obiegu zamkniętym w ramach „zrównoważonej konsumpcji”. W: Gospodarka o obiegu zamkniętym w polityce i badaniach naukowych [Identification and delimitation of circular economy’s areas within “sustainable consumption”. In: Circular economy in politics and research]. Ed. J. Kulczycka. Kraków. Wydaw.IGSM iE p. 167–179.
  • GRZESIK K. 2015. Oddziaływanie na środowisko zbiórki i transportu odpadów w systemach gospodarki odpadami komunalnymi [The environmental impact of collection and transport in municipal waste management systems]. Logistyka. No. 4 p. 8902–8910.
  • GUS 2018. Ochrona środowiska 2018 [Environmental protection 2018]. Warszawa. Główny Urząd Statystyczny. ISSN 0867–3217 pp. 217.
  • GUZDEK S., MALINOWSKI M., PETRYK A., RELIGA A., LISZKA D. 2020. Economic and ecological assessment of transport of various types of waste. Journal of Ecological Engineering. Vol. 21. No. 5 p. 19–26. DOI 10.12911/22998993/122120.
  • JĘDRZEJCZYK Z., KUKLA K., SKRZYPEK J., WALKOSZ A. 2014. Badania operacyjne w przykładach i zadaniach [Operational research in examples and tasks]. Warszawa. PWN. ISBN 978-83-01-16483-6 pp. 470.
  • KAHRAMAN C., CEBI S., ONAR S.C., OZTAYSI B. 2018. A novel trapezoidal intuitionistic fuzzy information axiom approach: an application to multicriteria landfill site selection. Engineering Applications of Artificial Intelligence. Vol. 67 p. 157–172. DOI 10.1016/j.engappai.2017.09.009.
  • KAMDAR I., ALI S., BENNUI A., TECHATO K., JUTIDAMRONGPHAN W. 2019. Municipal solid waste landfill siting using an integrated GIS-AHP approach: A case study from Songkhla, Thailand. Resources, Conservation and Recycling. Vol. 149 p. 220–235. DOI 10.1016/j.resconrec.2019.05.027.
  • MALINOWSKI M., JABŁCZYŃSKA K., KRAKOWIAK BAL A., ŁUKASIEWICZ M., RELIGA A., STEJSKAL B., ZIÓŁKOWSKI R. 2018a. Wykorzystanie metody Rapid Impact Assessment Matrix w ocenie oddziaływania na środowisko punktów selektywnego zbierania odpadów komunalnych [Use of Rapid Impact Assessment Matrix method in the environmental impact assessment of Municipal Solid Waste Collection Points]. Infrastruktura i Ekologia Terenów Wiejskich. No. 3(1) p. 815–827. DOI 10.14597/INFRAECO.2018.3.1.055.
  • MALINOWSKI M., PETRYK A., RYBIŃSKI J. 2018b. Wykorzystanie GIS w projektowaniu lokalizacji obiektów zagospodarowania zmieszanych odpadów komunalnych w regionie sądecko-gorlickim [Using of GIS in the selection of locations of mixed municipal waste management facilities in the sądecko-gorlicki region]. Biuletyn Komitetu Przestrzennego Zagospodarowania Kraju PAN. No. 272 p. 372–381.
  • MALINOWSKI M., RELIGA A. 2016. Method of setting locations for municipal solid waste collection points in protected areas. Infrastruktura i Ekologia Terenów Wiejskich. No. IV(3) p. 1603–1614. DOI 10.14597/infraeco.2016.4.3.120.
  • MARTINHO G., GOMES A., SANTOS P., RAMOS M., CARDOSO J., SILVEIRA A.,PIRES A. 2017. A case study of packaging waste collection systems in Portugal. Part I. Performance and operation analysis. Waste Management. Vol. 6 p. 96–107. DOI 10.1016/j.wasman.2017.01.030.
  • PETRYK A., MALINOWSKI M., DZIEWULSKA M., GUZDEK S. 2019. The impact of the amount of fees for the collection and management of municipal waste on the percentage of selectively collected waste. Journal of Ecological Engineering. Vol. 20. No. 10 p. 46–53. DOI10.12911/22998993/112874.
  • SAATY T.L. 1980. The Analytic Hierarchy Process: Planning, priority setting, resource allocation. New York. McGraw-Hill. ISBN 0-07-054371-2 pp. 287.
  • SAATY T.L. 1990. How to make a decision: the analytic hierarchy process. European Journal of Operational Research. Vol. 48(1) p. 9–26. DOI 10.1016/0377-2217(90)90057-I.
  • SAATY T.L. 2001. Decision making for leaders. The Analytic Hierarchy Process for decisions in a complex world. Pittsburgh. RWS Publications. Vol. 2.
  • SHAO Z., HUQ E., CAI B., ALTAN O., LI Y. 2020. Integrated remote sensing and GIS approach using Fuzzy-AHP to delineate and identify groundwater potential zones in semi-arid Shanxi Province, China. Environmental Modelling and Software. Vol. 134, 104868. DOI 10.1016/j.envsoft.2020.104868.
  • SPIGOLON L.M., GIANNOTTI M., LAROCCA A.P., RUSSO M.A., SOUZA N.D.C. 2018. Landfill siting based on optimisation, multiple decision analysis, and geographic information system analyses. Waste Management & Research. Vol. 36(7) p. 606–615. DOI 10.1177/0734242X18773538.
  • STEJSKAL B., MALSOVÁ A., BÁREKOVÁ A. 2017. Comparison of family house and apartment households bio-waste production and composition. Waste Forum. Vol. 4 p. 237–243.
  • SULEMANA A., DONKOR E.A., ODURO-KWARTENG S. 2020. Efficiency of Municipal Solid Waste Collection Systems in Ghana. The Journal of Solid Waste Technology and Management. Vol. 46 p. 58–65.
  • ZEMANEK J., MALINOWSKI M., WOŹNIAK A. 2009. Opracowanie zasad wyboru lokalizacji centrum recyklingu z wykorzystaniem analizy wielokryterialnej GIS [Elaborating the rules for selection of recycling centre localization using GIS-based multicriteria analysis]. Infrastruktura i Ekologia Terenów Wiejskich. Nr 5 p. 219–230.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-f3064619-0ba7-4ba8-9ac6-10917172e50e
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