摘要
城市污水中碳源不足是普遍存在的问题,采用城市污水处理厂自身产生的废物(初沉污泥)进行水解酸化以开发碳源.控制温度为35℃,水力停留时间为28 h,污泥停留时间为3 d,水解酸化系统出水的ρ(SCOD)和ρ(VFA)达到的最大值分别为975.8 mg/L和516.4 mg/L.表明通过控制水力停留时间和污泥停留时间可以实现水解酸化系统的启动,水解酸化系统碱度在725 mg/L左右,pH值在7.12左右时,系统能保持稳定的水解酸化效果.研究表明,水解酸化系统出现波动时,ρ(SCOD)和ρ(VFA)总是优先于系统的碱度和pH值而发生变化,同时系统的碱度也能有效缓冲系统pH值的变化.
The phenomenon of carbon resource insufficiency is a common problem in municipal wastewater. In this study, primary sludge which came from primary sediment was used for generating carbon resource by anaerobic hydrolysis acidification process. In the condition of 35℃, HRT= 28 h and SRT= 3 d, ρ(SCOD) and p(VFA) of effluents reached the peak value at 975.8 mg/L and 516.4 mg/L during the operation time. When the alkalinity was 725 mg/L and pH was 7.12, hydrolysis acidification process could keep the stable state of hydrolysis acidification efficiency. Appropriate alkalinity and pH value were the key parameters of hydrolysis acidification process for stable operation. When the hydrolysis acidification process was fluctuated, the changes of p(SCOD) and VFA were previous to the alkalinity and pH value.
出处
《北京工业大学学报》
EI
CAS
CSCD
北大核心
2008年第12期1304-1308,共5页
Journal of Beijing University of Technology
基金
国家自然科学基金(50678008)
北京市教委项目(KM200510005006)
北京市属市管高校人才强教计划资助项目(PHRIHLB).
关键词
初沉污泥
水解酸化
挥发性脂肪酸
水力停留时间
碱度
primary sludge
hydrolysis acidification
volatile fatty acids
hydraulic retention time alkalinity