Volume 8, Issue 5, September 2020, Page: 100-104
Analysis of Institutional Solid Waste Generation and Disposal in Afaka Military Cantonment Kaduna
Muktar Muhammad Namadi, Department of Chemistry, Nigerian Defence Academy, Kaduna, Nigeria
Afeez Oyeshola Jimoh, Department of Chemistry, Nigerian Defence Academy, Kaduna, Nigeria
Received: Sep. 12, 2020;       Accepted: Sep. 25, 2020;       Published: Oct. 13, 2020
DOI: 10.11648/j.ijepp.20200805.12      View  87      Downloads  33
One of the key stages in developing sound institutional solid waste management plan is the accurate determination of the amount and characterization of the wastes generated in an organization. The aim of this study was to quantify and characterize the waste generated in Afaka Military cantonment of the Nigerian Defence Academy Kaduna. The survey covered 8 departments, a cadet’s mess and an equitation wing and totalled 280 samples. The data for this study were obtained from field measurements and interview using structured questionnaire. The results obtained in the cadets’ mess showed food waste recorded the highest amount of waste generated having 822.9 kg/day which represent 59%. This was followed by ash and slaughter house waste with 18% and 16% respectively. The ash was a product of biomass burning as a result of cooking breakfast, lunch and dinner using a traditional three stone setting as means of cooking, while the waste from the slaughter house includes, skin offcut, cow dungs, blood, horns etc. Other results obtained for the components of wastes generated in the cadet’s mess includes plastic waste (3%), paper (2%) and green waste (vegetable offcuts, potato peels, yam feels etc.) (2%). The total quantity of waste generated from the cadets’ mess was estimated at 1392.5 kg/day. The results show an increased per capita waste generation of 0.87 kg/day which is above the national average of 0.5 kg/day. Results from the study shows that at least 73% of the waste from the cantonment can be diverted from going to dumpsite. This amount can be recycled, reused, or used as an energy source. It also revealed that the major recyclable components that have significant presence are plastic, paper, yard waste, and food waste. In conclusion, recycling program in the military cantonment is highly recommended.
Solid Waste, Generation, Disposal, Military Cantonment
To cite this article
Muktar Muhammad Namadi, Afeez Oyeshola Jimoh, Analysis of Institutional Solid Waste Generation and Disposal in Afaka Military Cantonment Kaduna, International Journal of Environmental Protection and Policy. Vol. 8, No. 5, 2020, pp. 100-104. doi: 10.11648/j.ijepp.20200805.12
Copyright © 2020 Authors retain the copyright of this article.
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Bakare, W. (2019). Solid Waste Management in Nigeria. Bioenergy Consult-Powering Clean Energy Future. https://www.bioenergyconsult.com/solid-waste-nigeria/.
Mason, I., Brooking, A., Oberender, A., Hardford, J., and Horsley, P., (2003). Implementation of a zero waste program at a university campus. Resources, Conservation, and Recycling. 38: 257-269.
Armijo de Vega, C., Benitez, S., and Ramirez-Barreto, M., (2003). Mexican educational institutions and waste management programmes: A University case study. Resources, Conservation, and Recycling, 39: 283-296.
Armijo de Vega C., Benítez S., Ramirez-Barreto, M., (2008). Solid waste characterization and recycling potential for a university campus. Waste Management. 28: S21–S26.
UNEP (United Nations Environment Programme), (2009). Developing Integrated Solid Waste Management Plan: Training Manual, Volume 4. ISWM Plan.
Gawaika V. (2004), Source Specific Quantification and Characterization of Municipal Solid Waste – a Review. IE (I) Journal-EN Vol 86.
Jarusombat S. (2002). Factors influencing treatment decisions of hazardous waste generators: A case study of factories in the Bangkok region. Waste Management and Research, 20 (6): 125-133.
Babcock, C and Wilcox V. (2003). Computational Fluid Dynamics in Waste-to-Energy Technology. Pamphlet.
Sangodoyin, A. Y. (1991). Ground and Surface Water Pollution by Open Dump in Ibadan, Nigeria. Discovery and Innovation. 2 (1): 37-43.
Salami, L., Susu, A. A., Patinvoh, R. J. and Olafadehan, O. A. (2011). Characterization Study of Solid Wastes: A Case of Lagos State. International Journal of Applied Science and Technology, 1 (3): 47-52.
Afon, A. O. (2007). An Analysis of Solid Waste Generation in Traditional African City, the Example of Ogbomosho, Nigeria. Environment and Urbanization, 19: 527-537.
Amori, A. A, Fatile B. O, Ihuoma, S. O and Omoregbee, H. O. (2013). Waste Generation and Management Practices in Residential Areas of Nigerian Tertiary Institutions. Journal of Educational and Social Research. 3 (4): 45-51.
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