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Analysis of Removal Characteristics and Optimization of Livestock Wastewater using a Factorial Design in the Coagulation Process  

Cho, Il-Hyoung (Institute of Health & Environment, School of Public Health, Seoul National University)
Lee, Nae-Hyun (Department of Environmental Division, Strategy Engineering Corporation)
Chang, Soon-Woong (Department of Environmental Engineering, Kyonggi University)
An, Sang-Woo (Environment Research Department, Korea Institute of Construction Technology)
Yoon, Young-Han (Environment Research Department, Korea Institute of Construction Technology)
Zoh, Kyung-Duk (Institute of Health & Environment, School of Public Health, Seoul National University)
Publication Information
Journal of Korean Society on Water Environment / v.23, no.1, 2007 , pp. 111-121 More about this Journal
Abstract
The experimental design and response surface methodologies haven been applied to the investigation of the chemical coagulation of livestock wastewater. The chemical coagulation reactions were mathematically described as a function of parameters raping mixing (rpm) of chemical coagulation ($X_1$), slow mixing (rpm) of chemical coagulation ($X_2$), $FeCl_3 $ concentration (mg/L) ($X_3$) and pH ($X_4$) being modeled by use of the central composite design. Empirical models were developed to describe relationship between the experimental variables and response. Statistical analysis indicates that three factors ($X_1$: raping mixing (rpm), $X_2$: slow mixing (rpm), $X_3$: $FeCl_3 $ concentration (mg/L) on the linear term (main effect), slow mixing (rpm) (${X_2}^2$) on the non-linear term (quadratic), and two factors ($X_1-X_3$, $X_2-X_3$) on the non-linear term (cross-product) had significant effects, respectively. The estimated ridge of maximum responses and optimal conditions for CODcr using canonical analysis was 87.44% ($X_1$: 229 rpm, $X_2$: 51 rpm, $X_3$: 877 mg/L, $X_4$: 4.3). To confirm this optimum condition, three additional experiments were performed and the mean CODcr removal (%) and concentration (mg/L) with a standard deviation of $87{\pm}1.2%$ ($576{\pm}34ppm$) were obtained.
Keywords
Chemical coagulation; Experimental design; $FeCl_3 $; pH; Raping mixing; Response surface; Slow mixing;
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Times Cited By KSCI : 10  (Citation Analysis)
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