Landfill Site Selection Using a Multi-Criteria Decision-Making Method: A Case Study of the Salafcheghan Special Economic Zone, Iran

Sustainable waste management, particularly in industrial areas, is one of the major challenges of developing countries. Among the important issues in the overall process of industrial wastes management is the necessity of suitable site selection for waste disposal. Considering the effects that the disposal sites exert on their surrounding ecosystem and environment, these sites should be located in places with the minimum destructive effects and the lowest environmental impacts. The aim of this research is to outline important criteria for industrial zone waste disposal site selection and to select optimal and proper disposal sites in the Salafchegan special economic zone. This region, as one of the most important industrial areas and closest to the country’s political–economic center, enjoys a privileged and unique position for producing, exporting, and transiting goods and products. There are various parameters involved in the optimal selection of suitable industrial waste disposal sites. In this case study, issues such as the depth of groundwater, distance from surface- and groundwater, access routes, residential areas, industries, power transmission lines, flood-proneness, faults, slope, and distance from gardens and agricultural lands were taken into account. Following selection and preparation of the maps related to the influential parameters, assigning weights was done through the Analytical Hierarchy Process (AHP) and using expert comments. At this stage, the maps and weights related to them were introduced into an index overlay model to obtain new maps from combining the influential parameters. Thereafter, the areas with the first and second priorities were selected and out of each one, four sites were suggested for disposing of industrial wastes. The sites with the first and second priorities were specified as A1, A2, A3, and A4 and B1, B2, B3, and B4, respectively. The area, groundwater depth, distance from residential areas, distance from the Salafchegan special economic zone, the direction of the predominant wind, and the land use of the selected sites were also investigated.

[1]  Elena Comino,et al.  Application of the Analytic Hierarchy Process and the Analytic Network Process for the assessment of different wastewater treatment systems , 2011, Environ. Model. Softw..

[2]  Linn Persson,et al.  The Globally Harmonized System of Classification and Labelling of Chemicals—Explaining the Legal Implementation Gap , 2017 .

[3]  Orhan Arkoc,et al.  Municipal solid waste landfill site selection using geographical information systems: a case study from Çorlu, Turkey , 2014, Arabian Journal of Geosciences.

[4]  Sajid Ali,et al.  Determination of the Most Optimal On-Shore Wind Farm Site Location Using a GIS-MCDM Methodology: Evaluating the Case of South Korea , 2017 .

[5]  H. Lyu,et al.  Assessment of Geohazards and Preventative Countermeasures Using AHP Incorporated with GIS in Lanzhou, China , 2018 .

[6]  Nematollah Khorasani,et al.  Siting MSW landfill using weighted linear combination and analytical hierarchy process (AHP) methodology in GIS environment (case study: Karaj). , 2010, Waste management.

[7]  P. C. Pandey,et al.  Geospatial strategy for sustainable management of municipal solid waste for growing urban environment , 2012, Environmental Monitoring and Assessment.

[8]  Pece V Gorsevski,et al.  Integrating multi-criteria evaluation techniques with geographic information systems for landfill site selection: a case study using ordered weighted average. , 2012, Waste management.

[9]  R. Șerbu,et al.  A Spatial Analytic Hierarchy Process for Identification of Water Pollution with GIS Software in an Eco-Economy Environment , 2016 .

[10]  Mohammad Reza Mohammadi,et al.  Multi-criteria decision support system for wind farm site selection using GIS , 2016 .

[11]  K P Anagnostopoulos,et al.  Suitability analysis for siting MSW landfills and its multicriteria spatial decision support system: method, implementation and case study. , 2013, Waste management.

[12]  Ajit Pratap Singh,et al.  OPTIMAL ALLOCATION OF LANDFILL DISPOSAL SITE: A FUZZY MULTI-CRITERIA APPROACH , 2008 .

[13]  Solomon Peter Gbanie,et al.  Modelling landfill location using Geographic Information Systems (GIS) and Multi-Criteria Decision Analysis (MCDA): Case study Bo, Southern Sierra Leone , 2013 .

[14]  Hossein Yousefi,et al.  Modifying the analysis made by water quality index using multi-criteria decision making methods , 2018 .

[15]  Nasser Hafezi Moghaddas,et al.  Hazardous waste landfill site selection in Khorasan Razavi Province, Northeastern Iran , 2011 .

[16]  Hossein Yousefi,et al.  GIS aided prediction of CO2 emission dispersion from geothermal electricity production , 2011 .

[17]  M. Nashimoto,et al.  Comparison of Decline of Japanese Cedar(Cryptomeria japonica D. Don) Stands with Soil Chemical Properties in the Kanto-Koshin District. , 1993 .

[18]  Hooshmand Alizadeh,et al.  Landfill site selection using integrated fuzzy logic and analytic network process (F-ANP) , 2013, Environmental Earth Sciences.

[19]  Usha Natesan,et al.  GIS-based approach for optimized siting of municipal solid waste landfill. , 2008, Waste management.

[20]  Giovanni De Feo,et al.  Using MCDA and GIS for hazardous waste landfill siting considering land scarcity for waste disposal. , 2014 .

[21]  Younes Noorollahi,et al.  GIS-based spatially integrated bioenergy resources assessment in Kurdistan Province-Northwest Iran , 2017 .

[22]  Kamal Taheri,et al.  Integrating multi-criteria decision analysis for a GIS-based hazardous waste landfill sitting in Kurdistan Province, western Iran. , 2009, Waste management.

[23]  Tayfun Cay,et al.  Selection of MSW landfill site for Konya, Turkey using GIS and multi-criteria evaluation , 2010, Environmental monitoring and assessment.

[24]  Ahmet Beskese,et al.  Landfill site selection using fuzzy AHP and fuzzy TOPSIS: a case study for Istanbul , 2015, Environmental Earth Sciences.

[25]  Ni-Bin Chang,et al.  An AHP-based fuzzy interval TOPSIS assessment for sustainable expansion of the solid waste management system in Setúbal Peninsula, Portugal , 2011 .

[26]  Nadhir Al-Ansari,et al.  Combining GIS Applications and Method of Multi-Criteria Decision-Making (AHP) for Landfill Siting in Al-Hashimiyah Qadhaa, Babylon, Iraq , 2017 .

[27]  Mehdi Gholamalifard,et al.  Siting MSW landfills with a weighted linear combination methodology in a GIS environment , 2006 .

[28]  Ibrahim Djamaluddin,et al.  GIS modeling of CO2 emission sources and storage possibilities , 2011 .

[29]  Sukha Ranjan Samadder,et al.  Municipal solid waste management using Geographical Information System aided methods: A mini review , 2014, Waste management & research : the journal of the International Solid Wastes and Public Cleansing Association, ISWA.

[30]  M Kemal Korucu,et al.  A criticism of applications with multi-criteria decision analysis that are used for the site selection for the disposal of municipal solid wastes. , 2012, Waste management.

[31]  A. Davami,et al.  An Urban Solid Waste Landfill Site Evaluation Process Incorporating GIS in Local Scale Environment: A Case of Ahvaz City, Iran , 2014 .

[32]  S. Djurdjic,et al.  Application of multi-criteria analysis and GIS in ecotourism development (Case study: Serbian Danube region) , 2015 .