Landfill Site Selection of Construction and Demolition Wastes Using GIS and AHP Method (A Case Study of Hamedan City)
Subject Areas : Waste ManagementFateme Jafari Nobakht 1 , Mehrdad Cheraghi 2 , Bahareh Lorestani 3
1 - M.Sc. Student, Environmental Science, Faculty of Science, Islamic Azad University, Hamedan Branch, Hamedan, Iran
2 - Associate Prof., Department of Environmental Science, Faculty of Science, Islamic Azad University, Hamedan Branch, Hamadan, Iran
3 - Associate Prof., Department of Environmental Science, Faculty of Science, Islamic Azad University, Hamedan Branch, Hamadan, Iran
Keywords: Wastes, Geographic Information System (GIS) and AHP, Landfill site selection, construction and demolition wastes (C&DW),
Abstract :
Background and Objectives: Population growth, urban development, and increased human activities will bring various outcomes, including the production and accumulation of waste, followed by environmental pollution. In developing countries, construction waste accounts for a large proportion of municipal waste, which in addition to the high cost of disposal, also has adverse effects on the environment. Because construction debris takes up a lot of space due to its bulk, disposing of it in landfills reduces the useful life of these areas and it is necessary to find a new place to bury construction debris. Method: Searching for a new landfill is a complex and time consuming process and requires a capable and efficient system, as using GIS and combining different layers of information and considering environmental, social and economic criteria, the most suitable landfill can be found. Located a building. In the present study, 16 criteria (slope, land use, residential, commercial and industrial centers, villages, roads (including 3 layers of highways, main roads and side roads), water (including 6 layers of wells, springs, aqueducts, Rivers, dams and waterways), antiquities, airport runways and mines) are involved in the location process, so that privacy and distance maps are prepared first ,then, in order to achieve more reliability, scoring the classes or parameter intervals was done in three ways. Criteria were weighted using Expert Choice software and hierarchical analysis (AHP). Findings: The results of the three types of scoring to multi-criteria analysis showed that there were significant differences in the results of different methods of scoring. Discussion and Conclusions: The results of combining 16 parameters involved in site selection in software Arc GIS9.3 showed that the appropriate zones for construction and demolition wastes buried in Hamadan, often are located in a 90-degree slice.
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1. Shokohian, M., Najafian Razavi, A., 2011, Management and approach of reduction of environmental pollution of construction wastes and their recycling, 6th National Congress on Civil Engineering, Semnan University, 8 p (In Persian).
2. Jaafarzadeh, N., Takdastan, A., Abtahi, M., 2004, Separation, recycling and disposal of construction wastes, Waste Management, 2(3): 31-39 (In Persian).
3. Mousavi, A., Hafezi Moghadas, N., 2011, Environmental organizing of construction wastes of city of Shahrood, The 7th Iranian conference of engineering geology and the Environment, Shahrood University of Technology, 11 p (In Persian).
4. Rezaei, H., Lashgari Pour G.R., 2009. Geotechnical properties of construction waste and their application in construction projects, 6th Iranian Conference of Engineering Geology and the Environment, Tarbiat Modares University, 7 p (In Persian).
5. Matkan, A.A., Shakib, A.R., Pouali, S.H., Nazmfar, H., 2009, Urban waste landfill site selection by GIS (Case study: Tabriz City), Environmental Sciences, 6(2): 121-132 (In Persian).
6. Coronado, M., Dosal, E., Coz, A., Viguri, J. R., Andres, A., 2011, Estimation of construction and demolition waste (C&DW) generation and multicriteria analysis of C&DW management alternatives: A case study in Spain, Waste and Biomass Valorization, 2: 209-225.
7. Bolouri Bazzaz, J., Zanjani, M.M,, 2010, An investigation on the strength of road base materials made of recycled construction debris, Transportation Research Journal, 7(2): 119-133 (In Persian).
8. Ghauor, Z., Razmara, M., 2018, Landfil location in Quchan city using the integration of the GIS system and the MCDA method, Journal of Environmental Geology, 12(42): 11-20 (In Persian).
9. Boroumandi, M., Khamehchyian, M., Nikoudel, M.R., 2015, Hazardous wastes landfill site selection using analytical hierarchy process (AHP) in Zanjan Province, Journal of Environmental Science and Technology, 16(4): 97-109 (In Persian).
10. Sener, S., Sener, E., Nas, B., Karaguzel, R., 2010, Combining AHP with GIS for landfill site selection: A case study in the Lake Beysehir catchment area (Konya, Turkey), Waste Management, 30: 2037-2046.
11. Azimi Hosseini, M., Nazari Far, M.H., Moemeni, R., 2014, Application of GIS in site selection, Mehregan Ghalam Publication, Tehran, pp 304 (In Persian).
12. Fataee, E., Alesheikh, A., 2009, Housing site selection of landfills for urban solid wastes using GIS technology and analytical Hierarchy process (A case study in the city of Givi), Environmental Sciences, 6(3): 145-158 (In Persian).
13. Amini, J., Karami, J., Alimohammadi Sarab, A., Hashemi, S.H., 2010, Evaluation of fuzzy screening, AHP and AHP-OWA decision making methods in site selection for rural sports-cultural centers (Case study: Cani Bzar, Mahabad), IranianRemote Sensing & GIS, 1(4): 41-54 (In Persian).
14. Shahabi, H., Barzegar, S., Keihanfard, S., Keyhanfard, S., 2011, Comparison and evaluation frequently and AHP methods in ranking site selection (Case study: 4 region of Tehran 15 zone), Journal of Geograpical Sciences, 18(21): 111-129 (In Persian).
15. Karimi, V., Ebadi, H., Ahmadi, S., 2007, Modeling the site selection of urban facilities using GIS with emphasis on the location of multi-storey car parks, Geomatics Conference, 6 p (In Persian).
16. Matkan, A.A., Shakiba, A., Pourali, S.H., Ebadi, E., 2009, Crisp and fuzzy decision making in multistore public parking lots, Environmental Sciences, 6(3): 207-222 (In Persian).