A Megacity-Scale Analysis of Sludge Management and Carbon Footprint in China

Abstract

With the growing capacity of wastewater treated, a large amount of sludge has been generated in China. Shanghai has 42 wastewater treatment plants (WWTPs), with a total design capacity of 8.5×106 m3/day. The sludge production per Capita is higher than in other Chinese regions. The sludge management strategy has changed drastically over the past three years in Shanghai. As to the sludge treatment, deep dewatering technologies such as filter-press dewatering and vacuum filter-press dewatering are the most used methods. On the other hand, the ratio of sludge anaerobic digestion and aerobic composting is very low due to the poor sludge quality. Regarding sludge disposal, sludge landfill has been phasing out, but the ratio of sludge incineration has increased significantly. The carbon footprint results show landfill alternatives generally have more greenhouse gas (GHG) emissions than sludge incineration and land use alternatives. The average CO2 per ton dry solids (DS) has reduced from 0.91 in 2019 to 0.67 ton CO2 /t DS in 2020 thanks to the optimization of sludge disposal. This study suggests deep dewatering treatment followed by incineration is considered the reasonable and sustainable sludge management scenario in a megacity.