Suitable Solid Waste Disposal Site Selection Using Geographical Information System: A Case of Debre Markos Town, Ethiopia

Year 2022, Volume: 9 Issue: 2, 1 - 8, 02.06.2022

Abinet Mihiretie

https://doi.org/10.30897/ijegeo.784087

Cited By: 3

Abstract

In this study an effort has been made to identify suitable sites for safe disposal. For proper identification and selection of appropriate sites for solid waste disposal careful and systematic procedures need to be adopted and followed. The main objective of this research was identified the suitable solid waste disposal site by using the GIS-based approaches in Debre markos town. The present study had considered various factors like road networks; rivers, soil, slope, altitude and land use/ land cover for selecting a suitable solid waste disposal site within the study area. The relative weights of the factor were estimated using AHP and factor maps were developed by using GIS spatial operations. The final weighted factor map produced an overall solid waste disposal suitability map. The solid waste disposal site suitability map was presented in four suitability index such as highly suitable, moderately suitable, low suitable and unsuitable. The result shows that around 21% area is highly suitable for solid waste disposal site, 25% is moderately suitable, 28% of study area has low suitable and 26% area is unsuitable for solid waste disposal site.

Keywords

GIS, DEBRE MARKOS, SOLID WASTE

Supporting Institution

no

Project Number

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References

• Abdelhakim El Maguiri, B. K. (2016). Landfill site selection using GIS, remote sensing and multicriteria decision analysis: case of the city of Mohammedia, Morocco, doi. 10.1007/s10064-016-0889.
• Ahmad A., B. A. (2011). GIS-Based Weighted Linear Combination Analysis and Remote Sensing Techniques to Select Optimum Solid Waste Disposal Sites within Mafraq City, Jordan. Journal of Geographic Information System; 19(3): 267-278.
• Ambaneh M. (2016). Solid Waste Disposal Site Selection Using Gis And Remote Sensing: For Mojo Town, Ethiopia
• Current, J.; Ratick, S. (1995). A model to assess risk, equity and efficiency in facility location and transportation of hazardous materials. Locat. Sci. 3, 187–201
• Iscan, Yagci, O. (2015). Selection of Solid Waste Landfill Site Using Geographical Information System (GIS). 9(8)
• Kao J. and Lin H.Y. (2005). Grid-based heuristic method for multifactor landfill siting. Journal of Computing in Civil Engineering, 19(4): 369-376.
• Kontos T. D., K. D. (2005). MSW landfills with a spatial multiple criteria analysis methodology, Waste Manag; 25:818–832.
• Jimoh, R. , Moradeyo, A. , Chuma, V. , Olubukola, O. Yusuf, A. (2019). GIS Based Appraisal of Waste Disposal for Environmental Assessment and Management in Mainland Area of Lagos State, NG. International Journal of Environment and Geoinformatics, 6(1), 76-82, doi: 10.30897/ijegeo. 476449
• Samadder, D. K. (2014). Application of GIS in Landfill Siting for Municipal Municipal Solid Waste. 4(22493131, 4(1), 37-40)
• Shahmoradi B.and Isalou A. (2013). Site selection for wastewater treatment plant using Integrated fuzzy logic and multicriteria decision model: A case study in Kahak, Iran. Adv Environ Health Res; 1(1): 51-61.
• Sulemana, A., Forkuo, E. K., Arthur, E. T., Agyeigyamfi, K., Otchere-darko, E., Ayaim, M. K. (2020). Multi-Criteria Selection of Suitable Institutional Solid Waste Collection Sites: A Case of KNUST Campus, Kumasi, Ghana, International Journal of Environment and Geoinformatics, 7(3), 372-380, doi. 10.30897/ijegeo.696335.
• Şener, ¸S., Sener, E.; Nas, B.; Karagüzel, R. (2010). Combining AHP with GIS for landfill site selection: A case study in the Lake Beysehir catchment area (Konya, Turkey). Waste Manag. 30, 2037–2046.
• Troschinetz, A.M.; Mihelcic, J.R (2009). Sustainable recycling of municipal solid waste in developing countries. Waste Manag. 29, 915–923
• Wondwosen M., Bedasa A. (2019). Suitable Solid Waste Disposal Site Selection Using Geographical Information System (GIS): A Case of Debre Berhan Town, Ethiopia. 7(1). American Journal of Environmental Protection, 7(1), 17-23 .