摘要
上海市城市污水处理规划的实施 ,将在 2 0 2 0年前使该市的城市污水厂污泥产生量从现状的 85tDS/d增长至 130 0~ 15 0 0tDS/d ,将形成可观的污泥消纳压力。预期了该市的污水污泥产生状况 ;以现有污水污泥处置与利用技术为基础 ,测算了可行的污泥处置与利用方向及相应的容量 ,以及满足容量利用的前处理要求。以此为基础 ,推荐了适宜的容量利用方案 ,并建议以生物稳定化干化处理作为污泥处置与利用前的改性处理步骤 ,且可在适当的条件下增加厌氧消化环节 ,提高处理体系的水平与容量宽余度。此污泥处理与利用体系可达到污泥消纳运行的柔性化和可靠性 。
The implementation of the Shanghai sewage treatment plan will result in a drastic increase of sewage sludge production from present 85 t DS/d to 1300-1500 t DS/d in 2020, resulting in a great pressure for treating and disposing large quantities of sludge. According to the plan, sludge production and its spatial distribution in the city are estimated in this paper. Based on existing sludge disposal and utilization processes, feasible outlets are discussed as well as related capacities and pretreatment requirements.A suitable capacity utilization scheme is presented. A combined biological stabilization and drying process is proposed prior to sludge disposal and utilization. Anaerobic digestion could be employed in this process to improve sludge quality and to reduce sludge production after 2005. This sludge treatment and reuse system is fairly flexible and reliable, and it is environmentally acceptable and afforded economically as well.
出处
《长江流域资源与环境》
CAS
CSSCI
CSCD
北大核心
2002年第3期255-259,共5页
Resources and Environment in the Yangtze Basin
关键词
系统分析
污水厂
污泥利用
污泥处置
污泥消纳
污泥管理策略
生物稳定化
污泥干化
上海
sewage sludgesludge disposal and utilization
sludge outlets
sludge management strategy
biological stabilization
sludge drying
the city of Shanghai
