• Title of article

    Optimizing potassium ferrate for textile wastewater treatment by RSM

  • Author/Authors

    Moradnia، Maryam نويسنده Health Faculty,Qazvin University of Medical Science,Qazvin,Iran , , Panahifard، Masoud نويسنده Health Faculty,Qazvin University of Medical Science,Qazvin,Iran , , Dindarlo، Kavoos نويسنده Health Faculty,Hormozgan University of Medical Science,Hormozgan,Iran , , Ali Jamali، Hamzeh نويسنده Health Faculty,University of Medical Science,Qazvin,Iran ,

  • Issue Information
    فصلنامه با شماره پیاپی سال 2016
  • Pages
    6
  • From page
    137
  • To page
    142
  • Abstract
    Background: Application of potassium ferrate is a chemical oxidation approach used for water and wastewater treatment. The aim of this study is to apply central composite design (CCD) and response surface methodology (RSM) to optimize potassium ferrate consumption in the treatment of wastewater from carpet industries. Methods: Samples in this experimental study were collected from wastewater, originating from a carpet factory. Wastewater sampling was carried out monthly for a period of two seasons. Ferrate oxidation experiments were conducted by means of a conventional jartest apparatus. The time and speed for mixing were set with an automatic controller. Parameters of study were measured based on given methodologies in Standard method for examining water and wastewater. CCD and RSM were applied to optimize the operating variables including potassium ferrate dosage and pH. Results: Results showed that potassium ferrate concentration (A), pH (B), their interactions (AB) and quadratic effects (A^2 and B^2) were significant in the removal of COD, turbidity, color and TSS from carpet industries effluents. At an optimum point (COD: 160 mg/L of potassium ferrate and pH 4, turbidity: 165 mg/L of potassium ferrate and pH 4, color and TSS: pH 4.5 and 150 mg/L of potassium ferrate) removal efficiencies for COD, turbidity, color and TSS were86, 86, 87 and 89%, respectively. Conclusion: Potassium ferrate has a significant impact on pollutants decomposition and the removal of color from wastewater produced in carpet industries. This process can be employed for the pretreatment or post treatment of wastewaters containing refractory organic pollutants. CCD and RSM are suitable tools for experimental design.
  • Keywords
    Response surface methodology , Advanced treatment , carpet wastewater , Statistical experiment design
  • Journal title
    Environmental Health Engineering and Management Journal
  • Serial Year
    2016
  • Journal title
    Environmental Health Engineering and Management Journal
  • Record number

    2396580