<p>OBJECTIVETo investigate the feasibility of nitrogen and phosphorus recovery from swine waste biogas digester effluent and the effects of pH and NH4+: Mg2+: PO4(3-) molar ratio on its precipitation.p><p>METHODSPrecipitation experiments with swine waste biogas digester effluent were conducted at pH 7.5, 8.0, 8.5, and 9.0 together with NH4+: Mg2+: PO4(3-) molar ratios 1: 0.2: 0.08, 1: 1: 1, and 1: 1.5: 1.5. Chemical and X-ray diffraction (XRD) analysis were done to determine the composition of the precipitate.p><p>RESULTSThe highest removal and recovery of NH4+ and PO4(3-) were achieved at pH 9.0 in each experiment. The elevation of pH to 9.0 alone could decrease the initial PO4(3-) concentration from 42 mg L(-1) to 4.7 mg L(-1) and 89.2% PO4(3-) recovery was achieved. The pH-molar ratio combination 9.0-1: 1.5: 1.5 effected 76.5% NH4+ and 68.5% PO4(3-) recovery. The molar ratio of 1: 1: 1 together with pH elevation to 9.0 was determined to be the optimum combination for both NH4+ and PO4(3-) removal as it recovered over 70% and 97% of the initial NH4+ and PO4(3-), respectively.p><p>CONCLUSIONSNitrogen and phosphorus can be recovered from biogas digester effluent as struvite.p>
Animals ; Bioelectric Energy Sources ; Bioreactors ; Chemical Precipitation ; Hydrogen-Ion Concentration ; Magnesium Compounds ; chemistry ; isolation & purification ; Manure ; Nitrogen ; chemistry ; isolation & purification ; Phosphates ; chemistry ; isolation & purification ; Phosphorus ; chemistry ; isolation & purification ; Struvite ; Swine ; Waste Disposal, Fluid ; X-Ray Diffraction

<p>OBJECTIVETo investigate the struvite precipitation under constant and non-constant pH conditions and to test a stainless steel device under different operating regimes to maximize the recovery of struvite.p><p>METHODSThe molar ratio of NH4+: Mg2+: PO4(3-) was adjusted to 1: 1.2: 1.2 and pH was elevated to 9.0. The absorbance measurement was used to trace the process of struvite crystallization. Wastewater and precipitate analysis was done by standard analytical methods.p><p>RESULTSThe pH constant experiment reported a significantly higher struvite precipitation (24.6 +/- 0.86 g) than the non-constant pH experiment (19.8 +/- 1.86 g). The SAR ranged from 5.6 to 8.2 g m(-2) h(-1) to 3.6-4.8 g m(-2) h(-1) in pH constant and non-constant experiments, respectively. The highest struvite deposit on the device was found in regime 3 followed by in regimes 2 and 4. The highest PO4(3-) (97.2%) and NH4+ (71%) removal was reported in the R1 regime. None of the influent Cu2+ or Zn2+ was precipitated on the device.p><p>CONCLUSIONA higher struvite yield is evident in pH constant experiments. Moreover, the stainless steel device facilitates the isolation of heavy metal free pure (around 96%) struvite from swine waste biogas digester effluent contaminated with cu2+ and Zn2+ and the highest yield is attainable with the device operating at 50 rpm with agitation by a magnetic stirrer.p>
Animals ; Bioreactors ; Chemical Precipitation ; Hydrogen-Ion Concentration ; Magnesium Compounds ; chemistry ; Manure ; Phosphates ; chemistry ; Stainless Steel ; Struvite ; Swine ; Time Factors ; Waste Disposal, Fluid ; instrumentation ; methods