Research article

A critical analysis of the role of energy generation from municipal solid waste (MSW)

  • Received: 10 May 2020 Accepted: 20 July 2020 Published: 09 October 2020
  • Municipal solid waste (MSW) management in Nigeria is a major problem that has reached alarming proportions. The increasing difficulty in managing MSW has become one of the most intractable environmental and health problems. Energy generation from MSW plays both negative and positive roles which can be viewed in an environmental and socio-economic perspective. This paper evaluated the socio-environmental and economic benefits of energy generation from MSW in Nigeria using secondary data and various analytical tools such as content analysis, in-depth analysis, critical review and narrative analysis. Some of the principal findings of this paper are that informal MSW recycling is also a contributor to inadequate energy generation from MSW, WTE technologies such as anaerobic digestion (AD) and combined heat and power (CHP) is a promising and viable MSW management strategy that can be adopted in most villages in rural areas in Nigeria. Energy generation from MSW in Nigeria has not been appropriately promoted due to weak environmental policies, inadequate funding and lack of environmental education. As such the need to review Nigerian waste management policies, creation of environmental, economic awareness and enlightenment campaigns and development of appropriate MSW collection and disposal agency in Nigeria should be provided. This paper concludes that it is essential to reassess all legislations regarding waste management in Nigeria with the aim to promote various WTE technologies most especially anaerobic digestion (AD) and combined heat and power (CHP) as these technologies are most suitable in Nigeria where the emissions of GHGs are rapidly increasing.

    Citation: Obidike Emeka Esae, Jatau Sarah, Ayu Mofe. A critical analysis of the role of energy generation from municipal solid waste (MSW)[J]. AIMS Environmental Science, 2020, 7(5): 387-405. doi: 10.3934/environsci.2020026

    Related Papers:

  • Municipal solid waste (MSW) management in Nigeria is a major problem that has reached alarming proportions. The increasing difficulty in managing MSW has become one of the most intractable environmental and health problems. Energy generation from MSW plays both negative and positive roles which can be viewed in an environmental and socio-economic perspective. This paper evaluated the socio-environmental and economic benefits of energy generation from MSW in Nigeria using secondary data and various analytical tools such as content analysis, in-depth analysis, critical review and narrative analysis. Some of the principal findings of this paper are that informal MSW recycling is also a contributor to inadequate energy generation from MSW, WTE technologies such as anaerobic digestion (AD) and combined heat and power (CHP) is a promising and viable MSW management strategy that can be adopted in most villages in rural areas in Nigeria. Energy generation from MSW in Nigeria has not been appropriately promoted due to weak environmental policies, inadequate funding and lack of environmental education. As such the need to review Nigerian waste management policies, creation of environmental, economic awareness and enlightenment campaigns and development of appropriate MSW collection and disposal agency in Nigeria should be provided. This paper concludes that it is essential to reassess all legislations regarding waste management in Nigeria with the aim to promote various WTE technologies most especially anaerobic digestion (AD) and combined heat and power (CHP) as these technologies are most suitable in Nigeria where the emissions of GHGs are rapidly increasing.


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    [1] Bongaarts J (2009) Human population growth and the demographic transition. Philos Trans R Soc Lond B Biol Sci 364: 2985-2990.
    [2] Scarlat N, Motola V, Dallemand JF, et al. (2015) Evaluation of energy potential of municipal solid waste from African urban areas. Renew Sust Energ Rev 50: 1269-1286.
    [3] Ezeah C, Roberts CL (2010) Analysis of barriers and success factors affecting the adoption of sustainable management of municipal solid waste in Nigeria. PhD thesis, University of Wolverhampton. http://www.researchgate.net/publication/45794853_Analysis_of_barriers_and_success_factors_affecting_the_adoption_of_sustainable_management_of_municipal_solid_waste_in_Abuja_Nigeria
    [4] Arukwe A, Eggen T, Möder M (2012) Solid waste deposits as a significant source of contaminants of emerging concern to the aquatic and terrestrial environments — A developing country case study from Owerri, Nigeria. Sci Total Environ 438: 94-102.
    [5] Afon AO, Okewole A (2007) Estimating the quantity of solid waste generation in Oyo, Nigeria. Waste Manag Res 25: 371-379.
    [6] Shaaban M, Petinrin JO (2014) Renewable energy potentials in Nigeria: Meeting rural energy needs. Renew Sust Energ Rev 29: 72-84.
    [7] Babayemi JO, Dauda KT (2009) Evaluation of solid waste generation, categories and disposal options in developing countries: a case study of Nigeria. J Appl Sci Environ Manage 13: 83-88.
    [8] Ogwueleka T (2009) Municipal solid waste characteristics and management in Nigeria. Iran J Environ Health Sci Eng 6: 173-80.
    [9] Ajani OIY (2007) Determinants of an effective solid waste management in Ibadan Metropolis, Oyo State, Nigeria. J Food Agric Environ 6: 152-157.
    [10] Murray KE, Thomas SM, Bodour AA (2010) Prioritizing research for trace pollutants and emerging contaminants in the freshwater environment. Environ Pollut 158: 3462-3471.
    [11] Yeung LWY, Yamashita N, Taniyasu S, et al. (2009) A survey of perfluorinated compounds in surface water and biota including dolphins from the Ganges River and in other waterbodies in India. Chemosphere 76: 55-62.
    [12] Webb EJ, Campbell DT, Schwartz RD, et al. (2000) Unobtrusive measures: Nonreactive research in the social sciences. Available from www.ncjrs.gov/app/publications/abstract.aspx?ID=48058 (17 Aug 2015).
    [13] Page S (2000) Community research: The lost art of unobtrusive methods 1. J Appl Soc Psychol 30: 2126-2136.
    [14] Moss G, McDonald JW (2004) The borrowers: library records as unobtrusive measures of children's reading preferences. J Res Read 27: 401-412.
    [15] Altheide DL (1987) Reflections: Ethnographic content analysis. Qual Sociol 10: 65-77.
    [16] Damghani AM, Savarypour G, Zand E, et al. (2008) Municipal solid waste management in Tehran: current practises, opportunities and challenges. Waste Man 28: 929-934.
    [17] Adebibu AA (1983) A comparative Analysis of Solid Waste Composition and generation in lIorin and Offa, Kwara State. Paper presented at the National Conference on Development and the Environment, organized by 4 NISER, University of Ibadan, Ibadan.
    [18] Agunwamba JC (2003) Analysis of scavengers' activities and recycling in some cities of Nigeria. Environ Manag 32: 116-127.
    [19] United Nations Environmental Programme (UNEP) (2008) Sub-Saharan African CDM Projects as at 2008. Nairobi: UNEP (online) available from < http://www.unep.org/pdf/Sub-SaharanCDMProject-List.pdf (12 May 2015).
    [20] Repetto R, RC Dower, R Jenkins, et al. (1992) Pay-by-the-Bag Household Collection Charges to Municipal Solid Waste. Resour Future.
    [21] Bogoro AG, Bkar AG, Samson MN, et al. (2014) Economic factors that determine the quantity and Characteristics of Solid Waste in Bauchi Metropolis, Nigeria. IOSR J Environ Sci Toxicol Food Technol 8: 1-7.
    [22] Uwadiegwu BO, Chukwu KE (2013) Strategies for effective urban solid waste management in Nigeria. Eur Sci J 9.
    [23] Ezeah C, Roberts CL (2012) Analysis of barriers and success factors affecting the adoption of sustainable management of municipal solid waste in Nigeria. J Environ Man 103: 9-14.
    [24] Bonner C (2008) Waste pickers without frontiers: first international and third Latin American Conference of Waste-Pickers (online) Available from: http://www.wiego.org/sites/reports/files/WIEGO-WastePickers-Conf-Report-2008.pdf
    [25] Ezeah C, Fazakerley JA, Roberts CL (2013) Emerging trends in informal sector recycling in developing and transition countries. Waste Man 33: 2509-2519.
    [26] UN HABITAT (2010) Solid waste management in the world's cities: Highlights from the UN-Habitat 2010 book (online) available from: http://www.waste.nl/en/product/solid-wastemanagement-in-the-worlds-cities
    [27] Nzeadibe TC, Anyadike RNC. (2012) Social participation in city governance and urban livelihoods: Constraints to the informal recycling economy in Aba Nigeria. City Culture Soc 3: 313-325.
    [28] Adama (2011) The politics of informality: an insight into the informal solid waste recycling sector in Kaduna, Nigeria. In: Paper presented at the 4th European Conference on African Studies: On Whose Terms? 15-18) Uppsala, Sweden: The Nordic African Institute.
    [29] Adama (2012) Urban livelihoods and social networks: emerging relations in informal recycling in Kaduna, Nigeria. Springer Links 23: 449-466.
    [30] Zia H, Devadas V, Shukla S (2008) Assessing informal waste recycling in Kanpur City, India. Man Environ Qual: An Int J 19: 597-612.
    [31] Gutberlet J, Baeder AM. (2008) Informal recycling and occupational health in Santo Andre, Brazil. Int J Environ Heal Res 18: 1-15.
    [32] Gunsilius E (2012) Role of the Informal Sector in Solid Waste Management and Enabling Conditions for its Integration: Experiences from GTZ. Gesellschaft für Technische Zusammenarbeit GmbH (GTZ) (online) available from: http://www.transwaste.eu/file/001441.pdf
    [33] Matter A, Dietschi M, Zurbrügg C (2013) Improving the informal recycling sector through segregation of waste in the household: The case of Dhaka Bangladesh. Habitat Int 38: 150-156.
    [34] Wilson DC, Velis C, Cheeseman C (2006) Role of informal sector recycling in waste management in developing countries. Habitat Int 30: 797-808.
    [35] Abah SO and Ohimain EI (2010) Assessment of Dumpsite Rehabilitation Potential Using the Integrated Risk Based Approach: A case Study of Eneka, Nigeria. J World Appl Sci 8: 436-442.
    [36] Sembiring E, Nitivattananon V (2010) Sustainable solid waste management towards an inclusive society: integration of the informal sector. Resour Conserv Recy 54: 802-809.
    [37] Portugal-Pereira J, Lee L (2015) Economic and environmental benefits of waste-to-energy technologies for debris recovery in disaster-hit Northeast Japan. J Clean Prod 112: 4419-4429.
    [38] Aldrich R, Llauró F X, Puig J, et al. (2011) Allocation of GHG emissions in combined heat and power systems: a new proposal for considering inefficiencies of the system. J Clean Prod 19: 1072-1079.
    [39] Song Q, Li J (2014) Environmental effects of heavy metals derived from the e-waste recycling activities in China: A systematic review. Waste Man 34: 2587-2594.
    [40] Yadav H, Kumar P, Singh VP (2018) Hazards from the Municipal Solid Waste Dumpsites: A Review. International Conference on Sustainable Waste Management through Design. 2018: 336-342.
    [41] Eddine BT, Salah MM (2012) Solid waste as renewable source of energy: current and future possibility in Algeria. Int J Energy Environ Eng 3: 17.
    [42] Olanrewaju OO, Ilemobade AA (2009) Waste to wealth: a case study of the Ondo State integrated waste recycling and treatment project, Nigeria. Eur J Soc Sci 8: 7-16.
    [43] Kofoworola OF (2007) Recovery and recycling practices in municipal solid waste management in Lagos, Nigeria. Waste Man 27: 1139-1143.
    [44] Abila B, Kantola J (2013) Municipal Solid Waste Management Problems in Nigeria: Evolving Knowledge Management Solution. World Academy of Science, Engineering and Technology. 2013: 292.
    [45] Markard J, Stadelmann M, Truffer B (2009) Prospective analysis of technological innovation systems: identifying technological and organizational development options for biogas in Switzerland. Res Policy 38: 655-667.
    [46] Olanrewaju OO, Ilemobade AA (2009) Waste to wealth: a case study of the Ondo State integrated waste recycling and treatment project, Nigeria. Eur J Soc Sci 8: 7-16.
    [47] Nkwachukwu OI, Chidi NI, Charles KO (2010) Issues of roadside disposal habit of municipal solid waste: Environmental impacts and implementation of sound management practices in developing country Nigeria. Int J Environ Sci 1: 409-418.
    [48] Adeyemi IG, Adeyemo OK (2007) Waste management practices at the Bodija abattoir, Nigeria. Int J Environ Stud 64: 71-82.
    [49] Babayemi JO, Dauda KT (2009) Evaluation of solid waste generation, categories and disposal options in developing countries: a case study of Nigeria. J Appl Sci Environ Manage 13: 83-88.
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