Gas turbine cooling systems and methods

1 . A gas turbine comprising: a compressor, a combustor downstream from the compressor in a gas flow direction, and a turbine downstream from the combustor in the gas flow direction, the turbine having a rotating part and a stationary part arranged around the rotating part, the rotating part having a rotor and a blade, the blade having a fir tree at a root end of the blade, the blade being attached to the rotor by the fir tree, the turbine having a gap between the rotating part and the stationary part, the gap extending between the blade and the stationary part in a substantially radial direction relative to the rotation axis of the rotating part, the gas turbine including a cooling path configured and arranged to direct a cooling fluid from the compressor to the gap, wherein at least a part of the cooling path extends in the stationary part, and wherein a pre-swirl nozzle is arranged adjacent to the gap and within the cooling path in the stationary part. 2 . The gas turbine of claim 1 , comprising: a sealing fin attached to the rotor casing, the vane or the rotating part and extending into the gap. 3 . The gas turbine of claim 2 , wherein the sealing fin is moveable in a direction of the rotation axis. 4 . The gas turbine of claim 3 , comprising: a pneumatic system configured and arranged to move the sealing fin in the direction of the rotation axis. 5 . The gas turbine of claim 3 , comprising: bolts that are configured and arranged to move the sealing fin in the direction of the rotation axis. 6 . The gas turbine of claim 5 , wherein the bolts comprise: a first type of bolt and a second type of bolt, configured and arranged so that when the first type of bolt is tightened it will move the sealing fin towards the blade, and when the second type of bolt is tightened it will move the sealing fin away from the blade. 7 . The gas turbine of claim 1 , comprising: a sealing plate extending adjacent to the fir tree on the side of the gap opposite the rotor casing, the sealing plate having at least one hole configured and arranged to allow cooling fluid from the gap to enter a fir tree cooling channel, wherein the fir tree cooling channel is arranged between the rotor and the fir tree. 8 . The gas turbine of claim 7 , comprising: at least one rib attached to the side of the sealing plate adjacent to the fir tree. 9 . The gas turbine of claim 1 , comprising: a second cooling path extending between the rotor and the rotor casing, the second cooling path configured and arranged to direct cooling air to cool an aerofoil of the blade. 10 . The gas turbine of claim 9 , comprising: a second pre-swirl nozzle in the second cooling path. 11 . The gas turbine of claim 1 , wherein the gas turbine comprises: an external cooler, and wherein the cooling path extends through the external cooler. 12 . The gas turbine of claim 1 , wherein the pre-swirl nozzle is at a same distance as the fir tree from the rotation axis of the gas turbine. 13 . A rotor casing for a gas turbine, the rotor casing being configured and arranged according to claim 1 . 14 . A method of cooling for a gas turbine, the method comprising: providing a gas turbine having a compressor, a combustor downstream from the compressor in a gas flow direction, and a turbine downstream from the combustor in the gas flow direction, the turbine having a rotating part and a stationary part arranged around the rotating part, the rotating part having a rotor and a blade, the blade having a fir tree at a root end of the blade, the blade being attached to the rotor by the fir tree, the turbine having a gap between the rotating part and the stationary part, the gap extending between the blade and the stationary part in a substantially radial direction relative to the rotation axis of the rotating part; and feeding cooling fluid from the compressor to the gap through the pre-swirl nozzle. 15 . The method of claim 14 , wherein the cooling fluid is fed from the gap to at least one of a blade shank cavity adjacent to the blade, a hot gas path in the turbine and a fir tree cooling channel between the fir tree and the rotor.