Water treatment process and water treatment system

The invention claimed is: 1. A water treatment process, comprising: a first scale inhibitor supplying step of supplying a calcium scale inhibitor which is a scale inhibitor for inhibiting the deposition of a scale containing calcium and a silica scale inhibitor which is a scale inhibitor for inhibiting the deposition of silica to water containing Ca 2+ ions, SO 4 2− ions, carbonate ions and silica; a first demineralizing step of separating the water into first concentrated water in which the Ca 2+ ions, the SO 4 2− ions, the carbonate ions and the silica are concentrated and treated water after the first scale inhibitor supplying step; and a first crystallizing step of supplying seed crystals of gypsum to the first concentrated water so that gypsum is crystallized from the first concentrated water, wherein the water treatment process further comprises, after the first crystallizing step: a second scale inhibitor supplying step of supplying the calcium scale inhibitor to the water; a first pH adjusting step of adjusting the water to a pH of 10 or more at which the silica is soluble in the water; a second demineralizing step of separating the water into second concentrated water in which the Ca 2+ ions, the SO 4 2− ions, the carbonate ions and the silica are concentrated and treated water after the second scale inhibitor supplying step and the first pH adjusting step; and a second crystallizing step of supplying seed crystals of gypsum to the second concentrated water so that gypsum is crystallized from the second concentrated water. 2. The water treatment process according to claim 1 , comprising a second pH adjusting step of adjusting the first concentrated water to a pH of 6.0 or less at which a scale inhibition function of the calcium scale inhibitor is reduced, thereby promoting the deposition of the gypsum in the first crystallizing step. 3. The water treatment process according to claim 2 , wherein, after the first crystallizing step, the first concentrated water after the adjustment of the pH in the second pH adjusting step is adjusted to a pH of 4.0 or more at which the calcium scale inhibitor exhibits its function. 4. The water treatment process according to claim 1 , comprising a second pH adjusting step of adjusting the first concentrated water to a pH of 10 or more at which the silica is soluble in the first crystallizing step. 5. The water treatment process according to claim 1 , comprising, after the second crystallizing step, a downstream side demineralizing step of performing separation into concentrated water and treated water, and recovering the separated treated water. 6. The water treatment process according to claim 1 , comprising an upstream side precipitating step of precipitating at least calcium carbonate from the water so that the concentration of the calcium carbonate in the water is reduced, before the first scale inhibitor supplying step. 7. The water treatment process according to claim 6 , comprising a deaerating step of removing CO 2 from the water before the upstream side precipitating step or after the upstream side precipitating step and before the first scale inhibitor supplying step. 8. The water treatment process according to claim 1 , wherein the water contains metal ions; and wherein the process comprises a first precipitating step of precipitating at least one of calcium carbonate and a metal compound so that the concentration of at least one of the calcium carbonate and the metal ions is reduced from the first concentrated water, after the first crystallizing step. 9. The water treatment process according to claim 8 , wherein at least one of seed crystals of the silica and a precipitant for the silica is supplied to the first concentrated water in the first precipitating step. 10. The water treatment process according to claim 1 , wherein the water contains metal ions; and wherein the process comprises a second precipitating step of precipitating at least one of calcium carbonate and a metal compound so that the concentration of at least one of the calcium carbonate and the metal ions is reduced from the second concentrated water, after the second crystallizing step. 11. The water treatment process according to claim 10 , wherein at least one of seed crystals of the silica and a precipitant for the silica is supplied to the second concentrated water in the second precipitating step. 12. The water treatment process according to claim 11 , wherein, when the water contains Mg 2+ ions, the amount of the precipitant for the silica to be supplied is adjusted according to the concentration of the Mg 2+ ions. 13. The water treatment process according to claim 9 , wherein, when the water contains Mg 2+ ions, the amount of the precipitant for the silica to be supplied is adjusted according to the concentration of the Mg 2+ ions. 14. The water treatment process according to claim 8 , wherein, when the water contains Mg 2+ ions, the first concentrated water in the first precipitating step is adjusted to a pH of 10 or more at which a magnesium compound is deposited so that the concentration of the Mg 2+ ions is reduced, and wherein, after the first precipitating step, the first concentrated water is adjusted to a pH of less than 10 at which the magnesium compound is soluble. 15. The water treatment process according to claim 10 , wherein, when the water to be treated contains Mg 2+ ions, the second concentrated water in the second precipitating step is adjusted to a pH of 10 or more at which a magnesium compound is deposited so that the concentration of the Mg 2+ ions is reduced, and wherein, after the second precipitating step, the second concentrated water is adjusted to a pH of less than 10 at which the magnesium compound is soluble. 16. The water treatment process according to claim 6 , wherein, when the water contains Mg 2+ ions, the water in the upstream side precipitating step is adjusted to a pH of 10 or more at which a magnesium compound is deposited so that the concentration of the Mg 2+ ions is reduced, and wherein, after the upstream side precipitating step, the water is adjusted to a pH of less than 10 at which the magnesium compound is soluble. 17. The water treatment process according to claim 5 , wherein moisture is evaporated from the concentrated water in the downstream side demineralizing step, so that a solid in the concentrated water is recovered. 18. A water treatment system, comprising: a first scale inhibitor supplying section that supplies a calcium scale inhibitor which is a scale inhibitor for inhibiting the deposition of a scale containing calcium and a silica scale inhibitor which is a scale inhibitor for inhibiting the deposition of silica to water containing Ca 2− ions, SO 4 2− ions, carbonate ions and silica; a first demineralizing section that is positioned on a downstream side of the first scale inhibitor supplying section and separates the water into first concentrated water in which the Ca 2+ ions, the SO 4 2− ions, the carbonate ions and the silica are concentrated and treated water; and a first crystallizing section including a first crystallizing tank that is positioned on a downstream side of the first demineralizing section and crystallizes gypsum from the first concentrated water and a first seed crystal supplying section that supplies seed crystals of gypsum to the first crystallizing tank, wherein the water treatment system comprises, on a downstream side of the first crystallizing section with respect to the water: a second scale inhib