Effects of Co-existing Ions on the Phosphorus Potassium Ratio of the Precipitate Formed In The Potassium Phosphate Crystallization Process
Date
2017-10-28Author
HARADA, Hiroyuki
KATAYAMA, Yumi
AFRILIANA, Asmak
INOUE, Minori
TERANAKA, Ryota
MITOMA, Yoshiharu
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Livestock wastewater is mainly treated with activated sludge, but ions such as
phosphorus, potassium, ammonium, nitrate and sulfate remain in the effluent. In this study, the effects of residual ions on phosphorus recovery using
the magnesium potassium phosphate crystallization method were investigated
when magnesium was added to increase the pH. If co-existing ions affect the
products, the phosphorus to potassium molar ratio (K/P ratio) of the precipitate will deviate from being equimolar. Artificial wastewater test solutions
containing 5.6 - 20.3 mM ammonium, 25.6 mM potassium, 6.5 mM phosphorus, 0 - 7.35 mM nitrate, and 0 - 3.06 mM sulfate were used. First, the optimum operating pH and amount of magnesium added to give a high phosphorus removal rate and recovery rate were determined. The experimental
setup was a 10 L aerated and stirred reactor, and a 5 L settling tank. The K/P
ratio in precipitate was approximately 1 using the optimum conditions. Continuous 2 h treatment allowed a white precipitate containing about 30 g of
needle-like crystals to be obtained. Next, the effects of varying the ammonium, nitrate, and sulfate ion concentrations in the artificial effluent were investigated. Ammonium and sulfate ion concentrations of 8 mM or more and 3
mM or more, respectively, caused the K/P ratio to decrease to about 0.7 and
0.5, respectively. Varying the nitrate concentration did not affect the K/P ratio, even at a nitrate concentration of 7.35 mM.
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- LSP-Jurnal Ilmiah Dosen [7301]