【 摘 要 】

The volume of municipal solid waste produced in many cities in low to middle income countries exceeds the capacity of handling facilities causing environmental and health risks. This study provides the most comprehensive analysis to date of municipal solid waste to energy options for Abuja, Nigeria. We use most recently available data on waste generation from Abuja municipal authorities, integrated with secondary data from the literature. This is combined with standard relationships between waste composition and energy production to compare the potential for thermochemical conversion and anaerobic digestion to meet the energy requirement of Abuja. In addition, we use assumptions about digestate production and nitrogen release to estimate the potential production of organic fertilizer from digestate. The organic fraction of municipal solid waste from Abuja [7.1 × 107 (±4 × 106) kg y−1] has potential to produce 3.6 × 106 (±2 × 105) m3 y−1 biogas. This could provide 7.8 × 103 (±4 × 102) MWh y−1 electricity, equivalent to 8% of annual electricity requirement in Abuja, 4.0 × 107 (±2 × 106) MJ y−1 heat, and 5.3 × 105 (±3 × 104) kg y−1 digestate use as bio-fertilizer from organic fraction only. Potential power generation by thermochemical conversion for combined heat and electricity is much greater, 7.73 × 104 (±4 × 103) MWh y−1, equivalent to 83% of power requirement in Abuja, but does not produce bio-fertilizer. Using the organic fraction for anaerobic digestion and the remaining waste for thermochemical conversion provides combined heat and energy that is 91.5% of Abuja power requirements, while also producing digestate. Barriers to implementation include informal waste recyclers with poor collection and handling procedures, absence of public education, weak environmental policies and lack of funding. There is a need for periodic review of policies and waste legislation to create a circular economy in Abuja.

【 授权许可】

Unknown   
Copyright © 2023 Dickson, Hastings and Smith.

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