Water Science and Technology (Feb 2024)

Recovery of phosphorus, magnesium, and potassium from surplus activated sludge using existing sludge treatment facilities and thickened primary sludge

  • Yudai Kamiyama,
  • Takuya Shiraiwa,
  • Nao Ishikawa,
  • Shinji Takahashi,
  • Makoto Sasamoto,
  • Masayuki Sasaki,
  • Toru Watanabe,
  • Ayumi Ito

DOI
https://doi.org/10.2166/wst.2024.013
Journal volume & issue
Vol. 89, no. 3
pp. 670 – 681

Abstract

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The separation of P, K, and Mg from surplus activated sludge (SAS) was investigated using existing sludge treatment facilities and the thickened primary sludge (TPS). The addition of the TPS to the SAS storage tank accelerated the anaerobic release of the three elements from SAS with maximum efficiencies of about 60%. The efficiency of P release showed a significant correlation with the oxidation–reduction potential. Increasing the total solid concentration increased the release of elements. The released elements could be transferred to a separate liquid (SL) from a screw-press thickener, and maximum concentrations of P, K, and Mg were about 200, 60, and 35 mg/L, respectively. The addition of CaCl2 and NaOH solutions to SL precipitated P as hydroxyapatite. However, no precipitation of K and Mg occurred simultaneously with P, even when the pH of SL was increased to 9. These findings suggest that about 60% of P, K, and Mg can be separated from SAS into SL using existing sludge treatment facilities and TPS; however, a method other than precipitation would be needed to recover P and K from SL simultaneously. HIGHLIGHTS The addition of thickened primary sludge accelerated the anaerobic release of P, Mg, and K from surplus activated sludge (SAS).; The release efficiency of P from SAS had a significant correlation with oxidation reduction potential.; The released elements can be transferred to a separate liquid (SL) from the thickener.; Mg and K in SL could not be recovered as a precipitate, unlike P.;

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