Method and system for recovering acidic gas

The invention claimed is: 1. A method for recovering an acidic gas, comprising: a step of bringing a gas to be treated that contains an acidic gas into gas-liquid contact with an amine absorbing solution, allowing the amine absorbing solution to absorb the acidic gas, thereby removing the acidic gas from the gas to be treated and causing the amine absorbing solution to contain iron ions and at least one of heavy metal ions dissolved from an iron-based equipment material, the heavy metal ions being selected from a group consisting of ions of at least one of beryllium (Be), aluminum (Al), magnesium (Mg), calcium (Ca), scandium (Sc), vanadium (V), chromium (Cr), manganese (Mn), cobalt (Co), nickel (Ni), copper (Cu), zinc (Zn), gallium (Ga), arsenic (As), selenium (Se), strontium (Sr), yttrium (Y), zirconium (Zr), molybdenum (Mo), silver (Ag), cadmium (Cd), indium (In) and tin (Sn); a step of allowing the amine absorbing solution that has absorbed the acidic gas to release the acidic gas, thereby regenerating the amine absorbing solution, and at the same time, recovering the released acidic gas; and an analysis step of calculating concentrations of the heavy metal ions in the amine absorbing solution after contact with the gas to be treated or after regeneration, wherein the analysis step comprises: a step of adjusting a pH value of the amine absorbing solution after contact with the gas to be treated or after regeneration, the amine absorbing solution having been collected, to a predetermined range by adding a pH adjuster to the amine absorbing solution having been collected; a step of passing the amine absorbing solution of which the pH value has been adjusted through a chelating resin, and thereby allowing the chelating resin to adsorb the heavy metal ions in the amine absorbing solution; a step of passing an acidic regenerating solution through the chelating resin that has adsorbed the heavy metal ions, thereby allowing the heavy metal ions to desorb, regenerating the chelating resin, and at the same time, obtaining a sample containing heavy metal ions; and a step of quantifying the heavy metal ions in the sample for measurement, and calculating the concentrations of the heavy metal ions in the collected amine absorbing solution, from the quantification results, wherein, in the analysis step, the concentration of the heavy metal ions in the collected amine absorbing solution are calculated according to the following formulae (I) and (II): Y=B /( A/C )  (I) Z=Y×D/E   (II) wherein Y is the concentration (mg/L) of the heavy metal ions in the sample for measurement, A is an absorbance (Abs.) of a reference sample, B is the absorbance (Abs.) of the sample for measurement, C is a concentration (mg/L) of the heavy metal ions in the reference sample, Z is a concentration (mg/L) of the heavy metal ions in the collected amine absorbing solution, D is a volume (L) of a container for quantifying the collected amine absorbing solution, and E is an amount (L) of the collected amine absorbing solution. 2. The method for recovering the acidic gas according to claim 1 , comprising quantifying the heavy metal ions in the sample by using an absorptiometric method. 3. The method for recovering the acidic gas according to claim 1 , further comprising a step of removing the heavy metal ions in the amine absorbing solution after regeneration, when the calculated concentration of the heavy metal ions in the amine absorbing solution has exceeded a threshold. 4. The method for recovering the acidic gas according to claim 1 , further comprising a step of stopping the analysis step when the calculated concentration of the heavy metal ions in the amine absorbing solution is at a predetermined threshold or lower, and at the same time, cleaning equipment and a flow path that have been used in the analysis step. 5. The method for recovering the acidic gas according to claim 4 , further comprising: a step of calibrating an apparatus that has been used for quantifying the heavy metal ions in the sample, or an additional conditioning step of regenerating the chelating resin that has been used in the analysis step, in a state of stopping the analysis step. 6. The method for recovering the acidic gas according to claim 5 , wherein in the calculation step, the concentration of the iron ions and the concentration of the heavy metal ions in the collected amine absorbing solution are calculated separately by repetition of the step, and after the concentration of one of the iron ions and the heavy metal ions has been calculated, the cleaning step and a standby step have been performed, the standby step comprising filling pure water into equipment which is used in the analysis step after the cleaning step, the concentration of the other of the iron ions and the heavy metal ions is calculated. 7. A system for recovering an acidic gas comprising: an absorbing tower that brings a gas to be treated which contains the acidic gas into gas-liquid contact with an amine absorbing solution, allowing the amine absorbing solution to absorb the acidic gas, and thereby removing the acidic gas from the gas to be treated and causing the amine absorbing solution to contain iron ions and at least one of heavy metal ions dissolved from an ion-based equipment material, the heavy metal ions being selected from a group consisting of ions of at least one of beryllium (Be), aluminum (Al), magnesium (Mg), calcium (Ca), scandium (Sc), vanadium (V), chromium (Cr), manganese (Mn), cobalt (Co), nickel (Ni), copper (Cu), zinc (Zn), gallium (Ga), arsenic (As), selenium (Se), strontium (Sr), yttrium (Y), zirconium (Zr), molybdenum (Mo), silver (Ag), cadmium (Cd), indium (In) and tin (Sn); a regenerating tower that is connected to the absorbing tower via a flow path for sending a part of the amine absorbing solution having absorbed the acidic gas and that allows the amine absorbing solution which has absorbed the acidic gas in the acidic gas absorbing tower to release the acidic gas, thereby regenerating the amine absorbing solution, and at the same time, recovering the released acidic gas; and an analysis apparatus that is connected to the flow path on a side of the absorbing tower via a branched flow path branched from the flow path and that is configured to calculate concentrations of the iron ions and the heavy metal ions in the amine absorbing solution after contact with the gas to be treated or after regeneration, and wherein the analysis apparatus comprises: a collecting unit that is connected to the flow path and that is configured to collect a certain amount of the amine absorbing solution having absorbed the acidic gas from the flow path; a solution adjusting unit that is connected to the collecting unit and that is configured to adjust a pH value of an amine absorbing solution having absorbed the acidic gas, the amine absorbing solution having been collected, to a predetermined range by adding a pH adjuster to the amine absorbing solution having been collected; an adsorbing unit that is connected to the solution adjusting unit and that includes a chelating resin, and is configured to pass the amine absorbing solution of which the pH value has been adjusted through the chelating resin in the solution adjusting unit, and thereby allow the chelating resin to adsorb the iron ions and the heavy metal ions in the amine absorbing solution; a desorbing unit that is connected to the solution adjusting unit and that is configured to pass an acidic regenerating solution through the chelating resin that has adsorbed the iron ions and the heavy metal ions, so as to thereby allow the iron ions and the heavy metal ions to desorb, regenerate the chelating resin, and at the same time, to obtain a sample for measurement, whic