• Title of article

    Application of iron oxide nanoparticles in the reactor for treatment of effluent from fish farms

  • Author/Authors

    Askari Hesni M. Research and Technology Institute of Plant Production (RTIPP) - Shahid Bahonar University of Kerman - Kerman, Iran , ZangiAbadi S. Research and Technology Institute of Plant Production (RTIPP) - Shahid Bahonar University of Kerman - Kerman, Iran , Hedayati S.A. Department of Fisheries and Aquatic Ecology - Faculty of Fisheries and Environmental Sciences - Gorgan University of Agricultural Sciences and Natural Resources - Gorgan - Golestan, Iran , Qadermarzi A. Department of Fisheries and Aquatic Ecology - Faculty of Fisheries and Environmental Sciences - Gorgan University of Agricultural Sciences and Natural Resources - Gorgan - Golestan, Iran , Pouladi M. Department of Fisheries and Aquatic Ecology - Faculty of Fisheries and Environmental Sciences - Gorgan University of Agricultural Sciences and Natural Resources - Gorgan - Golestan, Iran , Naghshbandi N. Department of Biology - Faculty of Sciences - Payame Noor University - Oshnavieh, Iran

  • Pages
    10
  • From page
    1319
  • To page
    1328
  • Abstract
    This study was conducted to remove contaminations from fish farms effluents using iron oxide nanoparticles in a laboratory system. For this purpose, a 5-liter semiindustrial reactor has designed with a mixer blade, a porous plate, and a compressor. The results showed that the levels of nitrate, nitrite, phosphate, ammonium, TDS, TSS, and BOD were 2.78, 3.27, 0.43, 7.46, 2.25, 3.38 and 5.34 mg L-1 at the entrance to the reactor, respectively. Also, pH and EC were 6.36 and 1362 μmho cm-1. At the reactor outlet, the levels of nitrate, nitrite, phosphate, ammonium, TDS, TSS and BOD were 1.84, 2.09, 0.27, 3.05, 1.61, 1.78 and 4.96 mg L-1. Furthermore, pH and EC were 7.22 and 1466 μmho cm-1. Also, this study has been showed that the system efficiency from the beginning up to 6 hours has been increased, but it has been reduced at the 18th hour, which has been caused by the sequestration and the formation of an oxide layer on nanoparticles. Therefore, it can be concluded that iron nanoparticles in the reactor fluid space have the potential to reduce the discharge burden of the effluent from fish farms
  • Keywords
    Iron oxide nanoparticles , Fish farm , Wastewater , Nanoparticle reactor
  • Journal title
    Iranian Journal of Fisheries Sciences
  • Serial Year
    2020
  • Record number

    2527089