Turbine vane and gas turbine including the same

What is claimed is: 1 . A turbine vane comprising: an airfoil having a pressure side and a suction side; at least one cooling channel formed radially in the airfoil; and an insert inserted into the at least one cooling channel to divide the cooling channel into a pressure side passage and a suction side passage. 2 . The turbine vane according to claim 1 , wherein the insert comprises: a partition configured to divide the at least one cooling channel into the pressure side passage and the suction side passage; a pair of supports extending from both ends of the partition and in close contact with an inner surface of the at least one cooling channel; and a throttle plate coupled to the partition to cover an inlet of the at least one cooling channel. 3 . The turbine vane according to claim 2 , wherein the throttle plate comprises a first throttle hole for introducing cold air into the pressure side passage and a second throttle hole for introducing cold air into the suction side passage. 4 . The turbine vane according to claim 3 , wherein the second throttle hole has an area of 1.5 to 2.0 times that of the first throttle hole. 5 . The turbine vane according to claim 3 , wherein the first throttle hole includes two through-holes; and the second throttle hole includes three or four through-holes. 6 . The turbine vane according to claim 2 , wherein the throttle plate is formed integrally with the partition and the pair of supports by welding. 7 . The turbine vane according to claim 6 , wherein the partition comprises a communication hole formed through a radially inner portion of the partition so that the pressure side passage and the suction side passage communicate with each other. 8 . The turbine vane according to claim 7 , wherein the communication hole comprises two or more communication holes formed near a lower portion of the partition and spaced apart from each other by a predetermined radial distance. 9 . The turbine vane according to claim 6 , wherein the partition is disposed at an inclination of 80 to 50 degrees with respect to the pair of supports to divide the at least one cooling channel into the pressure side passage and the suction side passage. 10 . The turbine vane according to claim 2 , wherein the partition is in a form of a thin plate. 11 . A gas turbine comprising: a compressor configured to compress outside air; a combustor configured to mix fuel with the air compressed by the compressor to burn a mixture thereof; and a turbine having a turbine blade and a turbine vane in a turbine casing to rotate the turbine blade by combustion gas discharged from the combustor, wherein the turbine vane comprises: an airfoil having a pressure side and a suction side; at least one cooling channel formed radially in the airfoil; and an insert inserted into the at least one cooling channel to divide the cooling channel into a pressure side passage and a suction side passage. 12 . The gas turbine according to claim 11 , wherein the insert comprises: a partition configured to divide the at least one cooling channel into the pressure side passage and the suction side passage; a pair of supports extending from both ends of the partition and in close contact with an inner surface of the at least one cooling channel; and a throttle plate coupled to the partition to cover an inlet of the at least one cooling channel. 13 . The gas turbine according to claim 12 , wherein the throttle plate comprises a first throttle hole for introducing cold air into the pressure side passage and a second throttle hole for introducing cold air into the suction side passage. 14 . The gas turbine according to claim 13 , wherein the second throttle hole has an area of 1.5 to 2.0 times that of the first throttle hole. 15 . The gas turbine according to claim 13 , wherein the first throttle hole includes two through-holes; and the second throttle hole includes three or four through-holes. 16 . The gas turbine according to claim 12 , wherein the throttle plate is formed integrally with the partition and the pair of supports by welding. 17 . The gas turbine according to claim 16 , wherein the partition comprises a communication hole formed through a radially inner portion of the partition so that the pressure side passage and the suction side passage communicate with each other. 18 . The gas turbine according to claim 17 , wherein the communication hole comprises two or more communication holes formed near a lower portion of the partition and spaced apart from each other by a predetermined radial distance. 19 . The gas turbine according to claim 16 , wherein the partition is disposed at an inclination of 80 to 50 degrees with respect to the pair of supports to divide the at least one cooling channel into the pressure side passage and the suction side passage. 20 . The gas turbine according to claim 12 , wherein the partition is in a form of a thin plate.