Acidic gas recovery apparatus and acidic gas recovery method

The invention claimed is: 1. An acidic gas recovery apparatus comprising: an acidic gas-absorber configured to absorb at least a part of acidic gases contained in an objective gas into an absorbing liquid and to discharge said objective gas as an acid gas-removed gas, a regenerator configured to be provided with said absorbing liquid from said acidic gas-absorber and to release said acidic gases absorbed in said absorbing liquid; a gas-cleaner configured to clean said acid gas-removed gas discharged from said acidic gas-absorber with a cleaning liquid; a cleaning liquid drawing-out line configured to draw out said cleaning liquid; an absorbing liquid drawing-out line configured to draw a part of the absorbing liquid supplied to said acidic gas-absorber; and an acidic component-remover configure to be supplied with said cleaning liquid and said absorbing liquid via said cleaning liquid drawing-out line and said absorbing liquid drawing-out line, respectively; wherein said acidic component-remover comprises a cathode, an anode, an absorbing liquid-purification compartment configured to remove acidic components of said absorbing liquid, and a cleaning liquid compartment configured to be supplied with said cleaning liquid. 2. The acidic gas recovery apparatus according to claim 1 , wherein said acidic component-remover further comprises a concentrate compartment configured to be supplied with a concentrate; said absorbing liquid-purification compartment, said cleaning liquid compartment and said concentrate compartment are separated with cation-exchange membranes or anion-exchange membranes; said absorbing liquid-purification compartment is provided between on the anode side of said cleaning liquid compartment and on the cathode side of said concentrate compartment individually via said anion-exchange membranes; and said concentrate compartment is provided on the cathode side of said cleaning liquid compartment via said cation-exchange membrane. 3. The acidic gas recovery apparatus according to claim 1 , wherein said absorbing liquid-purification compartment and said cleaning liquid compartment are separated with a bipolar membrane or an anion-exchange membrane; said absorbing liquid-purification compartment is provided on the anode side of said cleaning liquid compartment via said bipolar membrane; and said anion-exchange membrane is provided on the anode side of said absorbing liquid-purification compartment provided that said absorbing liquid-purification compartment is positioned between a pair of said cleaning liquid compartments. 4. The acidic gas recovery apparatus according to claim 1 , wherein the cleaning liquid discharged from said acidic component-remover is mixed with said cleaning liquid supplied to said acidic component-remover. 5. The acidic gas recovery apparatus according to claim 1 , wherein said cleaning liquid comprises a cleaning water and a cleaning acid having a lower pH value than said cleaning water; and said gas-cleaner comprises a water-cleaner configured to clean said acid gas-removed gas with said cleaning water, and an acid-cleaner configured to clean said acid gas-removed gas with said cleaning acid. 6. The acidic gas recovery apparatus according to claim 5 , wherein said cleaning liquid drawing-out line is configured to supply a part of said cleaning water or said cleaning acid to said acidic component-remover, and said cleaning water or said cleaning acid discharged from said acidic component-remover is configured to be mixed with said cleaning acid supplied to said acid-cleaner. 7. The acidic gas recovery apparatus according to claim 5 , further comprising: a pH-meter configured to measure the pH value of said cleaning liquid which is at least one of said cleaning water used in said water-cleaner and said cleaning acid used in said acid-cleaner; a cleaning acid supply configured to supply a fresh cleaning acid into a cleaning acid-circulation line, the cleaning acid-circulation line being configured to supply said fresh cleaning acid to said acid-cleaner; and a controller configured to control an amount of said fresh cleaning acid supplied into said cleaning acid-circulation line in accordance with the pH value of said cleaning liquid. 8. The acidic gas recovery apparatus according to claim 5 , wherein said gas-cleaner comprises said water-cleaner and said acid-cleaner, and further comprises a pH-meter configured to measure the pH value of said cleaning liquid discharged from said acidic component-remover and that of said cleaning acid used in said acid-cleaner; a control valve configured to adjust an amount of said cleaning liquid discharged from said acidic component-remover to be supplied to said acid-cleaner or said acidic component-remover; and a controller configured to control said control valve in accordance with the pH values of said cleaning liquid and said cleaning acid measured in said pH-meter. 9. The acidic gas recovery apparatus according to claim 5 , further comprising a pH-meter configured to measure the pH value of said cleaning liquid which is said cleaning water used in said water-cleaner or said cleaning acid used in said acid-cleaner; a three-way valve configured to supply said cleaning liquid discharged from said acidic component-remover to said water-cleaner, to said acid-cleaner or to said acidic component-remover; and a controller configured to control said three-way valve in accordance with the pH value of said cleaning liquid measured in said pH-meter. 10. An acidic gas recovery method comprising: an absorption step absorbing at least a part of acidic gases contained in an objective gas into an absorbing liquid and discharging said objective gas as an acid gas-removed gas; a gas-cleaning step cleaning said acid gas-removed gas with a cleaning liquid; and an acidic component-removal step removing acidic components from said absorbing liquid in an acidic component-remover, the acidic component-remover comprising an anode, a cathode, an absorbing liquid-purification compartment provided between said anode and said cathode, and a cleaning liquid compartment provided between said anode and said cathode, wherein said absorbing liquid-purification compartment and said cleaning liquid compartment are separated with at least one membrane, wherein the acidic component-removal step comprises: supplying at least a part of said absorbing liquid to be used in said absorption step to said absorbing liquid-purification compartment in said acidic component-remover; supplying at least a part of said cleaning liquid to said cleaning liquid compartment in said acidic component-remover; and applying voltage between said anode and said cathode.