Gas separation apparatus and packing

What is claimed is: 1. A gas separation apparatus which causes an absorbent supplied from above a packing to flow down along a surface of the packing of the gas separation apparatus arranged in a treatment chamber and supplies to the treatment chamber a gas to be treated containing a target gas component so that the absorbent flowing down along the surface of the packing and the gas to be treated are brought into gas-liquid contact, thereby the target gas component contained in the gas to be treated is absorbed in the absorbent to separate or recover from the gas to be treated, wherein the packing includes at least one packing unit formed of a plurality of expanded metal plates standing vertically and being aligned, the plurality of expanded metal plates being formed of strands which are inclined at an angle with respect to a vertical direction, the angle being from forty-eight to seventy-three degrees, and wherein the expanded metal plates have a mesh structure where a center-to-center distance in a long mesh direction is 1.0 to 6.0 mm. 2. The gas separation apparatus according to claim 1 , further comprising: the treatment chamber in which the packing is arranged, a gas introduction portion which introduces the gas to be treated to the treatment chamber, and an absorbent supply portion which supplies the absorbent to the packing, the absorbent supply portion having a sprinkler disposed above the packing to supply the absorbent from above the packing, wherein the plurality of expanded metal plates in the packing unit are aligned at constant intervals. 3. The gas separation apparatus according to claim 1 , wherein the packing unit comprises a gathering member to gather the plurality of expanded metal plates in an aligned state, and a spacer to provide a fixed interval between the plurality of expanded metal plates. 4. The gas separation apparatus according to claim 3 , wherein the gathering member has a penetration member that penetrates the plurality of expanded metal plates. 5. The gas separation apparatus according to claim 4 , wherein the plurality of expanded metal plates have a through hole to allow the penetration member to penetrate. 6. The gas separation apparatus according to claim 4 , wherein the spacer includes a tubular member which is arranged between the plurality of expanded metal plates and through which the penetration member penetrates. 7. The gas separation apparatus according to claim 3 , wherein the spacer includes a raised portion formed by bending a part of strands constituting the plurality of expanded metal plates. 8. The gas separation apparatus according to claim 5 , wherein the spacer includes a raised portion formed by bending a part of strands constituting the plurality of expanded metal plates to stand in a plate thickness direction at an edge of the through hole. 9. The gas separation apparatus according to claim 1 , wherein the packing unit further comprises an annular member that surrounds an outer circumference of the plurality of expanded metal plates to integrally fix the plurality of expanded metal plates. 10. The gas separation apparatus according to claim 1 , wherein the angle is from fifty degrees to seventy degrees. 11. The gas separation apparatus according to claim 1 , further comprising: the absorbent; and the treatment chamber. 12. The gas separation apparatus according to claim 1 , wherein the center-to-center distance in the long mesh direction is 3.0 to 6.0 mm. 13. The gas separation apparatus according to claim 1 , wherein the gas is exhaust gas, and the gas separation apparatus is configured to recover carbon dioxide from the exhaust gas. 14. The gas separation apparatus according to claim 1 , wherein the mesh structure for each of the expanded metal plates is the same, including the center-to-center distance in the long mesh direction. 15. The gas separation apparatus according to claim 1 , wherein the treatment chamber includes a first discharge port configured to discharge the gas after treatment of the gas, a first supply port configured to supply the absorbent to the packing, a second supply port configured to provide the gas to the packing, and a second discharge port configured to discharge the absorbent after treatment of the gas, wherein the first discharge port is above the first supply port, which is above the second supply port, which is above the second discharge port, and wherein the gas separation apparatus is arranged such that the absorbent is supplied to a top end of the packing and flows to a bottom end of the packing opposite the top end. 16. A packing for use in a gas separation apparatus that causes an absorbent to absorb a target gas component contained in a gas to be treated, in such a manner that the absorbent supplied from above the packing flows down along a surface of the packing to bring the absorbent and the gas to be treated into sufficient contact, the packing comprising: at least one packing unit including a plurality of expanded metal plates standing vertical and being aligned, wherein the plurality of expanded metal plates are formed of strands which are inclined at an angle with respect to a vertical direction, the angle being from forty-eight to seventy-three degrees, and wherein the expanded metal plates have a mesh structure where a center-to-center distance in a long mesh direction is 1.0 to 6.0 mm. 17. The packing according to claim 16 , wherein the angle is from fifty degrees to seventy degrees. 18. The packing according to claim 16 , wherein the center-to-center distance in the long mesh direction is 3.0 to 6.0 mm. 19. A method of separating carbon dioxide using a gas separation apparatus to recover carbon dioxide from an exhaust gas, the gas separation apparatus being configured to cause an absorbent to flow down along a surface of a packing arranged in a treatment chamber and supply to the treatment chamber a gas to be treated containing a target gas component so that the absorbent flowing down along the surface of the packing and the gas to be treated are brought into gas-liquid contact, thereby the target gas component contained in the gas to be treated is absorbed in the absorbent to separate or recover from the gas to be treated, wherein the target gas component is carbon dioxide, the absorbent is an aqueous amine compound solution, and the packing comprises at least one packing unit formed of a plurality of expanded metal plates standing vertically and being aligned, the plurality of expanded metal plates being formed of strands which are inclined at an angle with respect to a vertical direction, the angle being from forty-eight to seventy-three degrees, and the expanded metal plates having a mesh structure where a center-to-center distance in a long mesh direction is 1.0 to 6.0 mm, the method comprising: supplying the exhaust gas to the gas separation apparatus; and supplying the absorbent to the packing in the gas separation apparatus from above the packing.