In this research project, In order to prevent the inflow of nutrients into rivers and lakes and increase eutrophication, and to prevent depletion of phosphorite, which is a source of high-quality fertilizer, the applicability of the crystallization process to sewage process water was evaluated. The HAP and MAP crystallization process is a process of recovering high concentration of nitrogen/ phosphorus in the reflux water generated from the wastewater sludge treatment system as Hydroxyapatite or Struvite crystals. The purpose of this study was to evaluate the applicability of the phosphorus crystallization process in domestic sewage and livestock wastewater treatment facilities by applying raw water property analysis, equilibrium chemistry computer modeling, and batch experiments. For each pH 7.5, 8.5, 9.5 conditions, centrifugation and drying crystals were produced in an amount of 0.6176, 0.5425, 0.5793 g, that is, 6.176, 5.425, 5.793 g/L per 100 mL. As a result of XRD analysis of the crystals, Hydroxyapatite (HAP) was found as a major constituent, similar to the results of Visual-MINTEQ equilibrium chemistry simulation and phosphorus crystallization batch experiment.