Electrolyte for redox flow battery and redox flow battery

The invention claimed is: 1. An electrolyte for a redox flow battery, comprising vanadium ions as an active material, wherein a total concentration of impurity element ions contributing to generation of precipitate during a battery reaction is greater than 0 mass ppm and is 220 mass ppm or less, the impurity element ions include metal element ions and a total concentration of the metal element ions is 195 mass ppm or less, and wherein the impurity element ions contributing to generation of precipitate satisfy at least one of (β) to (γ) below in terms of concentration: (β) a concentration of molybdenum ions is greater than 0 mass ppm and 20 mass ppm or less, and (γ) a concentration of antimony ions is greater than 0 mass ppm and 1 mass ppm or less. 2. The electrolyte for a redox flow battery according to claim 1 , wherein the metal element ions include heavy metal element ions and a total concentration of the heavy metal element ions is 85 mass ppm or less. 3. The electrolyte for a redox flow battery according to claim 1 , wherein the metal element ions include light metal element ions and a total concentration of the light metal element ions is 120 mass ppm or less. 4. The electrolyte for a redox flow battery according to claim 1 , wherein the metal element ions include heavy metal element ions and light metal element ions, a total concentration of the heavy metal element ions is 85 mass ppm or less, and a total concentration of the light metal element ions is 120 mass ppm or less. 5. The electrolyte for a redox flow battery according to claim 1 , wherein the impurity element ions include non-metal element ions, wherein the non-metal element ions satisfy at least one of (15) and (16) below in terms of concentration: (15) a concentration of chloride ions is 20 mass ppm or less, and (16) a concentration of arsenic ions is 1 mass ppm or less. 6. The electrolyte for a redox flow battery according to claim 1 , wherein a concentration of the vanadium ions is 1 mol/L or more and 3 mol/L or less, a concentration of free sulfuric acid is 1 mol/L or more and 4 mol/L or less, a concentration of phosphoric acid is 1.0×10 −4 mol/L or more and 7.1×10 −1 mol/L or less, a concentration of ammonium is 20 mass ppm or less, and a concentration of silicon is 40 mass ppm or less. 7. A redox flow battery comprising the electrolyte for a redox flow battery according to claim 1 .