作　　者： ; ; ;

机构地区： 华南理工大学环境科学与工程学院

出　　处： 《环境工程学报》 2007年第1期64-67,共4页

摘　　要： 混凝过程作为工业废水的预处理技术普遍受到重视,在混凝过程中降低污泥产生量并提高污泥分离速度是该技术发展的方向,基于上述目标,通过将磁粉引入絮体使之磁化并在自行研制的高梯度磁分离装置中实现磁混凝与磁分离的协同作用。以高浊度的印染废水作为试验废水,以色度、COD及SS作为考核指标,重点考察了磁混凝反应及磁分离的影响因素。当印染废水的色度约为900倍、COD约为595 mg/L、SS约为500 mg/L时,在pH=8.5、FeSO4500 mg/L、PAM3.5 mg/L、磁粉400 mg/L的适宜磁混凝反应条件下,相应指标去除率比传统混凝法分别高出17.3%、21.7%及24.2%,此时絮团沉降速度增大了64.3%,污泥体积减少了61%,污泥压缩比为0.39。在电流强度8 A、流速2.5 L/m in和介质填充率1%的操作条件下,该磁性絮体流经高梯度磁分离装置时的水力表面负荷达到61.0 m3/m2.h,处理出水达到国家二级排放标准。 The coagulation process has been paid wide attention as pretreatment technology in industrial wastewater treatment. The main progressing direction of this technology is to reduce sludge volume and to improve sludge separating rate. Based on these goals, the synergistic effect of magnetic coagulation-high gradient magnetic separation was realized on a self-manufactured high gradient magnetic separation （HGMS）device through magnetization of flocs. Dyeing wastewater with high turbidity was used as pilot water;color,COD and SS were inspected as assessed indexes;and the factors that influenced magnetic coagulation and separation were investigated. The result showed that, when color was about 900 times, COD was about 595 mg/L and SS was about 500 mg/L, at pH value of 8.5, FeSO4 dosage of 500 mg/L, PAM dosage of 3.5 nag/L, and magnetic seeds dosage of 400 mg/L, the removal rates of color, COD and SS were increased by 17.3% , 21.7% and 24.2% respectively compared to conventional coagulation. Moreover, flocs＇sedimentation rate was increased by 64.3% , sludge volume was decreased by 61%, and at this point sludge compressing ratio was 0. 39. Under the operating conditions, that were electric current intensity of 8 A, flow rate of 2.5 L/min and medium packing density of 1% , when these magnetic flocs flowed through the device of HGMS, the hydraulic surfacing charge reached 61 m^3/m^2 · h, and the drainage achieved national standards of second grade.

关 键 词： 磁混凝 高梯度磁分离 印染废水 协同作用

领　　域： [环境科学与工程]