Estimating greenhouse gas emissions from municipal solid waste management in Depok, Indonesia

Abstract Almost every waste management step generates greenhouse gas (GHG) emissions; hence, it is imperative to design appropriate treatment methods from sources to disposal sites for reducing their environmental impact. In this study, to provide guidelines for developing a suitable waste management strategy for Depok, Indonesia, emissions from four waste management scenarios for the city are calculated. These scenarios involve treatments such as the application of Waste Treatment Unit (WTU), incinerator, anaerobic digester, composting, and landfill. The best scenario affords the treatment of 150 tons/day of municipal solid waste (MSW) via composting, 80 tons via WTU, and 500 tons/day via anaerobic digestion, and 390 tons/day, which are sent to a controlled landfill in Depok. This best scenario generates net GHG emissions of 202,800 kg CO2-eq/day, accounting for 1900 kg CO2-eq/day from transportation; 4 kg CO2-eq/day from WTU; 25,700 kg CO2-eq/day from composting; 46,200 kg CO2-eq/day from anaerobic digestion; and 129,000 kg CO2-eq/day from a controlled landfill. By contrast, the worst scenario corresponds to the city's current waste management approach, producing net GHG emissions of 299,602.6 kg CO2-eq/day from the treatment of 600 tons/day of MSW via landfill, 70 tons/day via open burning, 60 tons/day via MRF, 340 tons/day via anaerobic digestion, and 40 tons/day via composting.