As mineral resources of phosphorus are limited, the use of alternative phosphorus sources such as wastewater becomes an increasingly important option. In order to reuse the phosphorus as recycled sources and accelerate the small-scale cycle of phosphorus geochemical circulation efficiently, some studies pursued the chemical precipitation to recover the phosphorus. However, electro-chemical sedimentation is an economical and novel method which could release the target metal element from electrode aggregating with alternative phosphate compounds to form a reusable crystal of struvite and easy to operate comparing with other traditional methods. In general, magnesium added to source-separated urine, then struvite precipitate and phosphorus recovered. Magnesium ions were electrochemically dissolved from a sacrificial magnesium electrode which was used as the source of magnesium. In this study, tailings of magnesium alloy was used as the sacrificial electrode. Experimental results showed that the purity of struvite was strongly dependent on the pH and the electric current density. For the optimum controlling condition, the purity of struvite exceeded above 80%, and the phosphorus content was more than 23% as P2O5. It means that the struvite which recovery from urine can be used as fertilizer without any process. Due to the low cost and the capability of generating useful product, recovering phosphorus with sacrificial magnesium electrode is a worthwhile approach for urine treatment.