Impurities removal system

The invention claimed is: 1. An impurity removal system having a plurality of impurity separators comprising a plurality of compressors configured to stepwisely compress an oxyfuel combustor exhaust gas mainly constituted of carbon dioxide to a target pressure for liquefied or compressed transportation, and coolers each for cooling the exhaust gas from the corresponding compressor to discharge water condensed by the cooling as drain, an alkaline aqueous solution being supplied to an exhaust gas entry side of one of the coolers to discharge impurities in the exhaust gas together with the drain, the system comprising a drain tank for receiving the drain from at least one of the coolers to store a predetermined amount of drain, an alkaline aqueous solution supply unit comprising an aqueous solution adjustment tank for receiving and storing part of the drain from the drain tank, a solid alkaline agent supplier for supplying a solid alkaline agent to the drain in the aqueous solution adjustment tank to produce the alkaline aqueous solution, an alkaline concentration controller for controlling the solid alkaline agent supplier to regulate a detected alkaline concentration of the alkaline aqueous solution and a pump for supplying the alkaline aqueous solution in the aqueous solution adjustment tank to the exhaust gas entry side of the cooler, and an alkaline supply control unit comprising an impurity sensor arranged downstream of the cooler in a succeeding one of the impurity separators, a drain pH sensor for obtaining a detected pH of the drain in the drain tank, and a supply controller to which a detected impurity value from the impurity sensor and a detected pH from the drain pH sensor are inputted, the supply controller for regulating the alkaline aqueous solution supply unit on a basis of the detected impurity value by the impurity sensor so as to keep the detected pH by the drain pH sensor to a set value, thereby controlling an alkaline supply amount to the exhaust gas entry side of the cooler. 2. The impurity removal system as claimed in claim 1 wherein the alkaline aqueous solution supply unit comprises the aqueous solution adjustment tank for receiving through an intake valve and storing part of the drain from the drain tank, the solid alkaline agent supplier for supplying the solid alkaline agent through a regulator to the aqueous solution adjustment tank to produce the alkaline aqueous solution, a level gauge to measure a liquid level of the alkaline aqueous solution in the aqueous solution adjustment tank, an alkaline concentration sensor for obtaining a detected alkaline concentration of the alkaline aqueous solution in the aqueous solution adjustment tank, the alkaline concentration controller to which a detected level by the level gauge and the detected alkali concentration by the alkali concentration sensor are inputted, the alkaline concentration controller for controlling the intake valve so as to keep constant the level of the alkaline aqueous solution in the aqueous solution adjustment tank and for controlling the solid alkaline agent supplier so as to keep to a predetermined value the detected alkaline concentration of the alkaline aqueous solution in the aqueous solution adjustment tank, and the pump for supplying the alkaline aqueous solution in the aqueous solution adjustment tank to the exhaust gas entry side of the cooler. 3. The impurity removal system as claimed in claim 1 wherein the alkaline supply control unit controls the alkaline concentration controller to regulate the solid alkaline agent supplier so as to produce the alkaline aqueous solution with constant detected alkaline concentration in the aqueous solution adjustment tank, and controls the pump so as to obtain a supply amount of alkaline aqueous solution in accordance with the detected impurity value by the impurity sensor. 4. The impurity removal system as claimed in claim 2 wherein the alkaline supply control unit controls the alkaline concentration controller to regulate the solid alkaline agent supplier so as to produce the alkaline aqueous solution with constant detected alkaline concentration in the aqueous solution adjustment tank, and controls the pump so as to obtain a supply amount of alkaline aqueous solution in accordance with the detected impurity value by the impurity sensor. 5. The impurity removal system as claimed in claim 1 wherein the alkaline supply control unit regulates the pump so as to keep constant the supply amount of the alkaline aqueous solution, and controls the alkaline concentration controller to regulate the solid alkaline agent supplier so as to obtain the detected alkaline concentration of the alkaline aqueous solution in the aqueous solution adjustment tank in accordance with the detected impurity value by the impurity sensor. 6. The impurity removal system as claimed in claim 2 wherein the alkaline supply control unit regulates the pump so as to keep constant the supply amount of the alkaline aqueous solution, and controls the alkaline concentration controller to regulate the solid alkaline agent supplier so as to obtain the detected alkaline concentration of the alkaline aqueous solution in the aqueous solution adjustment tank in accordance with the detected impurity value by the impurity sensor. 7. The impurity removal system as claimed in claim 4 wherein at least one of the coolers is a first one of the coolers. 8. The impurity removal system as claimed in claim 6 wherein at least one of the coolers is a first one of the coolers. 9. The impurity removal system as claimed in claim 7 wherein alkaline aqueous solution in the aqueous solution adjustment tank is supplied through the pump to the exhaust gas entry side of the cooler in a preceding one of the impurity separators. 10. The impurity removal system as claimed in claim 8 wherein alkaline aqueous solution in the aqueous solution adjustment tank is supplied through the pump to the exhaust gas entry side of the cooler in a preceding one of the impurity separators. 11. The impurity removal system as claimed in claim 1 wherein alkaline aqueous solution in the aqueous solution adjustment tank is supplied through a different pump to an exhaust gas entry side of the cooler in a succeeding one of the impurity separators. 12. The impurity removal system as claimed in claim 2 wherein alkaline aqueous solution in the aqueous solution adjustment tank is supplied through a different pump to an exhaust gas entry side of the cooler in a succeeding one of the impurity separators. 13. The impurity removal system as claimed in claim 11 wherein the alkaline supply control unit controls the alkaline concentration controller to regulate the solid alkaline agent supplier so as to produce the alkaline aqueous solution with constant detected alkaline concentration in the aqueous solution adjustment tank, and regulates the pump to control the supply amount of the alkaline aqueous solution in accordance with the detected impurity value by the impurity sensor, thereby controlling the alkaline supply amount. 14. The impurity removal system as claimed in claim 12 wherein the alkaline supply control unit controls the alkaline concentration controller to regulate the solid alkaline agent supplier so as to produce the alkaline aqueous solution with constant detected alkaline concentration in the aqueous solution adjustment tank, and regulates the pump to control the supply amount of the alkaline aqueous solution in accordance with the detected impurity value by the impurity sensor, thereby controlling the alkaline supply amount. 15. The impurity removal system as claimed in claim 11