System for chemically absorbing carbon dioxide in combustion exhaust gas

The invention claimed is: 1. A carbon dioxide (CO 2 ) chemical absorption system comprising: a CO 2 absorption column for separating CO 2 from combustion exhaust gas by absorbing the CO 2 in the combustion exhaust gas with a CO 2 absorbing liquid mainly composed of an aqueous alkanolamine solution; a regeneration column for regenerating the CO 2 absorbing liquid by desorbing CO 2 gas from the CO 2 absorbing liquid that has absorbed CO 2 , wherein the regeneration column comprises a packed bed, a water washing part over the packed bed and a reboiler, and the CO 2 absorbing liquid that has absorbed CO 2 is fed to a top portion of the packed bed; a condenser for condensing water vapor entrained in the desorbed CO 2 gas discharged from the top of the regeneration column, thereby obtaining reflux water; a pipe for returning all or part of the reflux water obtained by the condenser to the top of the regeneration column, and for dispersing the reflux water to the water washing part in the regeneration column; a collection plate for collecting the reflux water dispersed to the water washing part in the regeneration column, and for preventing the dispersed reflux water from flowing into the packed bed; a pipe for sending the regenerated CO 2 absorbing liquid from the bottom of the regeneration column to the top of a packed bed in the absorption column; and a pipe for joining the reflux water collected by the collection plate into the pipe for sending the regenerated CO 2 absorbing liquid. 2. A carbon dioxide (CO 2 ) chemical absorption system comprising: a CO 2 absorption column for separating CO 2 from combustion exhaust gas by absorbing the CO 2 in the combustion exhaust gas with a CO 2 absorbing liquid mainly composed of an aqueous alkanolamine solution; a regeneration column for regenerating the CO 2 absorbing liquid by desorbing CO 2 gas from the CO 2 absorbing liquid that has absorbed CO 2 , wherein the regeneration column comprises a packed bed, a water washing part over the packed bed and a reboiler, and the CO 2 absorbing liquid that has absorbed CO 2 is fed to a top portion of the packed bed; a condenser for condensing water vapor entrained in the desorbed CO 2 gas discharged from the top of the regeneration column, thereby obtaining reflux water; a pipe for returning a part of the reflux water obtained by the condenser to the top of the regeneration column, and for dispersing the reflux water to the water washing part in the regeneration column; an instrument for measuring the temperature in the top portion of the packed bed in the regeneration column, and for controlling the flow rate of the reflux water dispersed to the water washing part in the regeneration column so that the temperature is a predetermined value; a pipe for sending the regenerated CO 2 absorbing liquid from the bottom of the regeneration column to the top of a packed bed in the absorption column; and a pipe for joining the remaining reflux water obtained by the condenser into the pipe for sending the regenerated CO 2 absorbing liquid.