Method and apparatus for preventing corrosion of compressor impurity separation mechanism

The invention claimed is: 1. An apparatus for preventing corrosion of a compressor-based impurity separation mechanism wherein impurities in exhaust gas mainly composed of carbon dioxide from an oxyfuel combustor are removed, before supplying of the exhaust gas to a carbon dioxide liquefier, by the compressor-based impurity separation mechanism comprising a plurality of impurity separators having a plurality of compressors for stepwisely compressing carbon dioxide up to a target pressure for liquefaction thereof and aftercoolers for cooling the exhaust gas compressed by the respective compressors, water condensed by the cooling being discharged as drain, the apparatus comprising an alkalinity control agent supply unit which comprises a nozzle for spraying an alkalinity control agent upstream of a compressor in a first one of the impurity separators such that a detected pH value in the drain from the aftercooler in said first impurity separator is 5 or more to remove impurities containing at least sulfur oxides in the exhaust gas and a supply pump for supplying an alkalinity control agent stored in an supply tank to said nozzle through a filter. 2. The apparatus for preventing corrosion of the compressor-based impurity separation mechanism as claimed in claim 1 wherein said alkalinity control agent supply unit has a pH sensor for detecting pH of drain in a drain tank which stores the drain from the aftercooler in said first impurity separator, and a controller for controlling a supply amount of the alkalinity control agent by said supply pump so as to keep the pH value detected by said pH sensor to a preliminarily set value. 3. The apparatus for preventing corrosion of the compressor-based impurity separation mechanism as claimed in claim 1 , wherein said alkalinity control agent supply unit has a mixing pump for mixing the alkalinity control agent from said supply tank by the supply pump with the drain from a drain tank to supply a resultant mixture to said nozzle. 4. The apparatus for preventing corrosion of the compressor-based impurity separation mechanism as claimed in claim 2 , wherein said alkalinity control agent supply unit has a mixing pump for mixing the alkalinity control agent from said supply tank by the supply pump with the drain from the drain tank to supply a resultant mixture to said nozzle. 5. The apparatus for preventing corrosion of the compressor-based impurity separation mechanism as claimed in claim 1 , wherein the controller is configured such that a detected value of sulfur oxides from an impurity sensor arranged downstream of the aftercooler in a downstream one of the impurity separators is inputted, and a supply of the alkalinity control agent by said alkalinity control agent supply unit is increased when the detected value of sulfur oxides from the impurity sensor exceeds a preliminarily set value. 6. The apparatus for preventing corrosion of the compressor-based impurity separation mechanism as claimed in claim 2 , wherein the controller is configured such that a detected value of sulfur oxides from an impurity sensor arranged downstream of the aftercooler in a downstream one of the impurity separators is inputted, and a supply of the alkalinity control agent by said alkalinity control agent supply unit is increased when the detected value of sulfur oxides from the impurity sensor exceeds a preliminarily set value. 7. A method for preventing corrosion of a compressor-based impurity separation mechanism wherein impurities in exhaust gas mainly composed of carbon dioxide from an oxyfuel combustor are removed, before supplying of the exhaust gas to a carbon dioxide liquefier, by the compressor-based impurity separation mechanism comprising a plurality of impurity separators having a plurality of compressors for stepwisely compressing carbon dioxide up to a target pressure for liquefaction thereof and aftercoolers for cooling the exhaust gas compressed by the respective compressors, water condensed by the cooling being discharged as drain, the method comprising spraying an alkalinity control agent upstream of the compressor in a first one of the impurity separators such that a detected pH value in the drain from the aftercooler in said first impurity separator is 5 or more, and discharging impurities containing at least sulfur oxides in the exhaust gas together with drain from the aftercooler in the first impurity separator.