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粉末炭/SBR工艺处理高浓豆制品废水研究
引用本文:龙腾锐,林于廉,尤鑫,易洁. 粉末炭/SBR工艺处理高浓豆制品废水研究[J]. 中国给水排水, 2008, 24(9): 106-108
作者姓名:龙腾锐  林于廉  尤鑫  易洁
作者单位:重庆大学,城市建设与环境工程学院,重庆,400045
摘    要:对粉末炭(PAC)/SBR工艺处理高浓度豆制品生产废水进行了研究,探讨了PAC用量、曝气时间、曝气方式对处理效果的影响.结果表明:在PAC用量为400 mg/L、PAC/SBR反应器进水COD负荷<6 000 mg/L及限制曝气时间为6h时,最终出水的COD和NH 4-N浓度均能达标.COD由2850 mg/L降至611mg/L时,反应符合零级反应动力学规律;COD<611 mg/L时,反应符合一级反应动力学规律.

关 键 词:粉末炭/SBR  豆制品废水  曝气时间  曝气方式  反应动力学

Study on Treatment of High-concentration Soybean Product Wastewater by PAC/SBR Process
LONG Teng-rui,LIN Yu-lian,YOU Xin,YI Jie. Study on Treatment of High-concentration Soybean Product Wastewater by PAC/SBR Process[J]. China Water & Wastewater, 2008, 24(9): 106-108
Authors:LONG Teng-rui  LIN Yu-lian  YOU Xin  YI Jie
Affiliation:LONG Teng-rui,LIN Yu-lian,YOU Xin,YI Jie(College of Urban Construction , Environmental Engineering,Chongqing University,Chongqing 400045,China)
Abstract:The treatment of high-concentration soybean product wastewater by PAC/SBR process was studied,and the effect of PAC dosage,aeration time and aeration mode on the treatment efficiency was discussed.The results show that the COD and ammonia nitrogen concentrations in the effluent can meet the discharge standard when the PAC dosage is 400 mg/L,the COD load is below 6 000 mg/L,and the aeration time is controlled at 6 h.The reaction follows the zero order kinetic law when the COD concentration is reduced from 2 ...
Keywords:PAC/SBR  soybean product wastewater  aeration time  aeration mode  reaction kinetics  
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