Carbon dioxide gas recovery device

摘要

A carbon dioxide gas recovery device is provided which includes an absorption tower causing an absorbent to absorb carbon dioxide gas to generate a rich absorbent and a regeneration tower regenerating a lean absorbent by heating the rich absorbent to separate carbon dioxide gas therefrom. The regeneration tower includes a reboiler system heating the absorbent led out from the regeneration tower and reintroducing the heated absorbent into the regeneration tower and a mixed gas cooling system cooling a mixed gas led out from the regeneration tower, condensing a vapor fraction of a solute and a solvent, reintroducing the condensed vapor fraction into the regeneration tower, and discharging carbon dioxide gas. The carbon dioxide gas recovery device further includes a heat pump as a heat source of an endothermic reaction in which carbon dioxide gas is separated from the rich absorbent in the regeneration tower.

主权项

1. A carbon dioxide gas recovery device comprising:
an absorption tower configured to bring a carbon dioxide-containing gas containing carbon dioxide gas into contact with a lean absorbent, and cause the lean absorbent to absorb carbon dioxide gas in the carbon dioxide-containing gas to generate a rich absorbent; a regeneration tower configured to regenerate the lean absorbent by heating the rich absorbent supplied from the absorption tower to separate carbon dioxide gas from the rich absorbent, a rich supply channel configured to lead the rich absorbent from a bottom portion of the absorption tower and supply the rich absorbent to a top portion of the regeneration tower; a lean supply channel configured to lead the lean absorbent from a bottom portion of the regeneration tower and supply the lean absorbent to a top portion of the absorption tower; and a heat pump configured to use the heat, which is transmitted through a heat carrier medium generated in an exothermic reaction in which the lean absorbent absorbs carbon dioxide gas in the absorption tower, as a heat source of an endothermic reaction in which carbon dioxide gas is separated from the rich absorbent in the regeneration tower, wherein the absorption tower includes: first and second fillers disposed in the absorption tower and configured to promote the absorption of carbon dioxide gas into the lean absorbent, the second filler being positioned at the lower side of the first filler in the absorption tower; an introduction channel connected to the bottom portion of the absorption tower and configured to introduce the carbon dioxide-containing gas to the absorption tower; a first nozzle connected to the lean supply channel in the top portion of the absorption tower and configured to supply the lean absorbent to the first filler inside the absorption tower; and an intercooler system configured to lead the lean absorbent from a tower intermediate part of the absorption tower between the top portion and the bottom portion of the absorption tower, cool the led lean absorbent and reintroduce the cooled lean absorbent into the tower intermediate part, wherein the intercooler system includes: a liquid-receiving tray disposed between the first and second fillers at the tower intermediate part of the absorption tower and configured to store the lean absorbent; a fifth nozzle disposed below the liquid-receiving tray at the tower intermediate part of the absorption tower; a pipe connecting the liquid-receiving tray and the fifth nozzle; and a pump configured to transfer the lean absorbent from the liquid-receiving tray to the fifth nozzle through the pipe and supply the lean absorbent from the fifth nozzle to the second filler inside the absorption tower, wherein the heat pump includes: a second heat exchanger disposed in the regeneration tower and configured to exchange heat between the heat carrier medium and the rich absorbent in the regeneration tower; a heat carrier expansion valve configured to expand the heat carrier medium of which heat has been exchanged with the rich absorbent in the second heat exchanger thereby lowering the temperature of the heat carrier medium;
a sixth heat exchanger disposed in the pipe of the intercooler system and configured to exchange heat between the heat carrier medium expanded by the heat carrier expansion valve and the lean absorbent received by the liquid-receiving tray,a seventh heat exchanger disposed in the lean supply channel and configured to exchange heat between the heat carrier medium expanded by the expansion valve and the lean absorbent, anda heat carrier compressor configured to compress the heat carrier medium of which heat has been exchanged with the lean absorbent in the sixth and seventh heat exchangers thereby raising the temperature of the heat carrier medium.