Method and apparatus for treating acidic liquid containing metal ions

1 - 10 . (canceled) 11 . A method for treating a liquid containing ions of an iron-group metal, the method comprising: an electrodialysis step in which a liquid containing ions of an iron-group metal and an electrodeposition liquid containing a ligand capable of forming a complex with the ions of an iron-group metal are introduced to an electrodialysis bath including a plurality of cation-exchange membranes, and the ions of an iron-group metal are removed from the liquid containing ions of an iron-group metal as a result of the ions of an iron-group metal contained in the liquid containing ions of an iron-group metal being permeated through the cation-exchange membrane and migrated into the electrodeposition liquid; an electrodeposition step in which an electrodeposition liquid containing the ions of an iron-group metal, the electrodeposition liquid being discharged from the electrodialysis bath, is introduced to an electrodeposition bath including an anode and a cathode, and the ions of an iron-group metal are removed from the electrodeposition liquid as a result of the ions of an iron-group metal contained in the electrodeposition liquid being electrodeposited on the cathode; and an electrodeposition-liquid-circulation step in which an electrodeposition liquid from which the ions of an iron-group metal have been removed in the electrodeposition step is fed to the electrodialysis step. 12 . The method for treating a liquid containing ions of an iron-group metal according to claim 11 , wherein the liquid containing ions of an iron-group metal is an acidic decontamination liquid waste having a pH of less than 5 which is produced by a decontamination treatment performed in a nuclear power plant, and wherein the liquid waste from which the ions of an iron-group metal have been removed in the electrodialysis step is reused as a decontamination liquid. 13 . The method for treating a liquid containing ions of an iron-group metal according to claim 11 , wherein the electrodialysis bath includes an anode and a cathode, a first bipolar membrane arranged to face the anode, a second bipolar membrane arranged to face the cathode, a plurality of cation-exchange membranes interposed between the first and second bipolar membranes, and one or more third bipolar membranes each interposed between a specific one of adjacent pairs of the cation-exchange membranes, wherein a space between the anode and the first bipolar membrane serves as an anode chamber, and a space between the cathode and the second bipolar membrane serves as a cathode chamber, wherein a space between each of the cation-exchange membranes and a specific one of the bipolar membranes which is adjacent to the cation-exchange membrane on a side of the cation-exchange membrane on which the anode is located serves as a deionization chamber, and a space between each of the cation-exchange membranes and a specific one of the bipolar membranes which is adjacent to the cation-exchange membrane on a side of the cation-exchange membrane on which the cathode is located serves as a concentration chamber, and wherein the liquid containing ions of an iron-group metal is passed through the deionization chamber, while the electrodeposition liquid is passed through the concentration chamber. 14 . The method for treating a liquid containing ions of an iron-group metal according to claim 11 , wherein the electrodialysis bath includes an anode and a cathode, a first hydrogen-permselective cation-exchange membrane arranged to face the anode, a second hydrogen-permselective cation-exchange membrane arranged to face the cathode, a plurality of cation-exchange membranes interposed between the first and second hydrogen-permselective cation-exchange membranes, and one or more third hydrogen-permselective cation-exchange membranes each interposed between a specific one of adjacent pairs of the cation-exchange membranes, wherein a space between the anode and the first hydrogen-permselective cation-exchange membrane serves as an anode chamber and a space between the cathode and the second hydrogen-permselective cation-exchange membrane serves as a cathode chamber, wherein a space between each of the cation-exchange membranes and a specific one of the hydrogen-permselective cation-exchange membranes which is adjacent to the cation-exchange membrane on a side of the cation-exchange membrane on which the anode is located serves as a deionization chamber, and a space between each of the cation-exchange membranes and a specific one of the hydrogen-permselective cation-exchange membranes which is adjacent to the cation-exchange membrane on a side of the cation-exchange membrane on which the cathode is located serves as a concentration chamber, and wherein the liquid containing ions of an iron-group metal is passed through the deionization chamber, while the electrodeposition liquid is passed through the concentration chamber. 15 . The method for treating a liquid containing ions of an iron-group metal according to claim 11 , wherein the electrodeposition bath includes an anode chamber provided with the anode, a cathode chamber provided with the cathode, and a cation-exchange membrane that separates the anode chamber from the cathode chamber, and wherein an electrodeposition liquid containing the ions of an iron-group metal is passed through the cathode chamber. 16 . The method for treating a liquid containing ions of an iron-group metal according to claim 15 , wherein an electrodeposition liquid discharged from the cathode chamber of the electrodeposition bath is introduced to the electrodialysis bath via an electrodeposition liquid tank, and an electrodeposition liquid containing the ions of an iron-group metal, the electrodeposition liquid being discharged from the electrodialysis bath, is fed to the cathode chamber of the electrodeposition bath via the electrodeposition liquid tank. 17 . The method for treating a liquid containing ions of an iron-group metal according to claim 15 , wherein an electrode liquid passed through the anode chamber and/or the cathode chamber of the electrodialysis bath is fed to the anode chamber of the electrodeposition bath via an electrode liquid tank, and an anode liquid discharged from the anode chamber of the electrodeposition bath is passed through the anode chamber and/or the cathode chamber of the electrodialysis bath via the electrode liquid tank. 18 . An apparatus for treating a liquid containing ions of an iron-group metal, the apparatus comprising: an electrodialysis device including an electrodialysis bath including an anode chamber provided with an anode, a cathode chamber provided with a cathode, and a plurality of cation-exchange membranes interposed between the anode and cathode chambers, a current-application unit that applies a voltage between the anode and the cathode of the electrodialysis bath, and a unit that passes a liquid containing ions of an iron-group metal and an electrodeposition liquid containing a ligand capable of forming a complex with the ions of an iron-group metal through the electrodialysis bath, the electrodialysis device removing the ions of an iron-group metal from the liquid containing ions of an iron-group metal by causing the ions of an iron-group metal contained in the liquid containing ions of an iron-group metal to permeate through the cation-exchange membranes and migrate into the electrodeposition liquid, an electrodeposition apparatus including an electrodeposition bath including an anode chamber provided with an anode, a cathode chamber provided with a cathode, and a cation-exchange membrane that separates the anode chamber from the cathode chamber, a current-application unit that applies a voltage between the anode and the cathode