摘要
Chemical precipitation is a useful technology as a pretreatment to treat mature landfill leachate with high concentrations of ammonium-nitrogen (NH+-N) and refractory organic compounds. Orthogonal experiments and factorial experiments were carried out to determine the optimal conditions enhancing the magnesium ammonium phosphate (MAP) precipitation process, and the experi- mental results demonstrated that the removal rate of NH+ -N was more than 85% when MgO and NaHEPO4.2H20 were applied as external sources of magnesium and phosphorous under the optimal conditions that molar ratio n(Mg):n(N):n(P) = 1.4:1:0.8, reaction time 60 min, original pH of leachate and settling time 30 min. In the precipitation process, pH could be maintained at the optimal range of 8-9.5 because MgO could release hydroxide ions to consume hydrogen ions. Calcium ions and carbonate ions existed in the leachate could affect the precipitation process, which resulted in the decrease of NH+-N removal efficiency. The residues of MAP sediments decomposed by heating under alkaline condi- tions can be reused as the sources of phosphorous and magnesium for the removal of high concentrations of NH4+ -N, and up to 90% of ammonium could be released under molar ratio of n[OH]:n[MAP] = 2.5: 1, heating temperature 90℃ and heating time 2h.
Chemical precipitation is a useful technology as a pretreatment to treat mature landfill leachate with high concentrations of ammonium-nitrogen (NH+-N) and refractory organic compounds. Orthogonal experiments and factorial experiments were carried out to determine the optimal conditions enhancing the magnesium ammonium phosphate (MAP) precipitation process, and the experi- mental results demonstrated that the removal rate of NH+ -N was more than 85% when MgO and NaHEPO4.2H20 were applied as external sources of magnesium and phosphorous under the optimal conditions that molar ratio n(Mg):n(N):n(P) = 1.4:1:0.8, reaction time 60 min, original pH of leachate and settling time 30 min. In the precipitation process, pH could be maintained at the optimal range of 8-9.5 because MgO could release hydroxide ions to consume hydrogen ions. Calcium ions and carbonate ions existed in the leachate could affect the precipitation process, which resulted in the decrease of NH+-N removal efficiency. The residues of MAP sediments decomposed by heating under alkaline condi- tions can be reused as the sources of phosphorous and magnesium for the removal of high concentrations of NH4+ -N, and up to 90% of ammonium could be released under molar ratio of n[OH]:n[MAP] = 2.5: 1, heating temperature 90℃ and heating time 2h.