Sequential combustor arrangement with a mixer

The invention claimed is: 1. A sequential combustor arrangement, comprising: a first burner; a first combustion chamber; a mixer for admixing a dilution gas to hot gases leaving the first combustion chamber during operation; a second burner; and a second combustion chamber arranged sequentially in a fluid flow direction, wherein the mixer is adapted to guide the hot gases in a hot gas flow path extending between the first combustion chamber and the second burner, the mixer including: a duct having an inlet at an upstream end adapted for connection to the first combustion chamber and an outlet at a downstream end adapted for connection to the second burner; at least one group of injection tubes extending inwards from a side wall of the mixer into the hot gas flow path for admixing the dilution gas to cool the hot gases leaving the first combustion chamber wherein the at least one group of injection tubes are arranged circumferentially distributed along the side wall of the mixer; a duct wall at least partly encloses the side wall delimiting a connecting duct for feeding the dilution gas to the at least one group of injection tubes; and a flow guide arranged in the connecting duct and/or the at least one group of injection tubes for guiding the dilution gas into the at least one group of injection tubes, wherein the flow guide includes a deflector disposed in the connecting duct above an inlet of an injection tube of the at least one group of injection tubes, and an onset of the deflector is arranged above an inlet of the injection tube and shifted in a flow direction of the dilution gas by a first displacement (w 1 ) relative to an upstream end of a cross section of the injection tube wherein a ratio of the first displacement (w 1 ) to a diameter (D) of the injection tube is in a range of 0.2 to 0.6 and/or that a downstream end of the deflector is arranged shifted in the flow direction of the dilution gas by a second displacement (w 2 ) relative to a downstream end of the cross section of the injection tube wherein a ratio of the second displacement (w 2 ) to the diameter (D) of the injection tube is in a range of 0.1 to 0.45. 2. The sequential combustion arrangement according to claim 1 , wherein the flow guide comprises: a tube wall arranged inside each injection tube of the at least one group of injection tubes and extending along a protrusion direction of the injection tube. 3. The sequential combustion arrangement according to claim 2 , wherein the tube wall is arranged at a distance (x) from an upstream end of a cross section of each injection tube with respect to a flow direction of the hot gases in the mixer and wherein a ratio of the distance (x) to a diameter (D) of each injection tube is in a range of 0.2 to 0.5. 4. The sequential combustion arrangement according to claim 1 , wherein the deflector comprises: a single collar-like body which spans around the mixer in a circumferential direction. 5. The sequential combustion arrangement according to claim 1 , wherein a height of a cross section (h pl ) of the connecting duct is less or equal to 2.5 a diameter (D) of an injection tube of the at least one group of injection tubes. 6. The sequential combustion arrangement according to claim 1 , wherein the deflector comprises: a straight flank extending from the duct wall towards the side wall with an angle (α) between the straight flank and the duct wall between 1° and 90°. 7. The sequential combustion arrangement according to claim 3 , wherein downstream of the flow guide the side wall of the mixer is enclosed by an end wall forming an annular end duct for cooling an inlet section of the mixer wherein the ratio of the height (w 3 ) of the end duct to the diameter (D) of each injection tube is in the range of 0.025 to 0.2. 8. The sequential combustor arrangement according to claim 1 , wherein at least part of the outer surface of each injection tube of the at least one group of injection tubes and/or at least part of the inner surface of the side wall of the mixer is coated with TBC. 9. The sequential combustor arrangement according to claim 1 , comprising: cooling ribs and/or a pin field arranged on each inner surface of the at least one group of injection tubes. 10. A gas turbine engine with at least one compressor, a combustor, and at least one turbine; the gas turbine engine, comprising: a sequential combustor arrangement according to claim 1 . 11. A method for operating a gas turbine with at least one compressor, a sequential combustor arrangement including a first burner, a first combustion chamber, a mixer for admixing a dilution gas to the hot gases leaving the first combustion chamber during operation, a second burner, and a second combustion chamber arranged sequentially in a fluid flow direction, wherein the mixer is adapted to guide the hot gases in a hot gas flow path extending between the first combustion chamber and the second burner, the mixer including a duct having an inlet at an upstream end adapted for connection to the first combustion chamber and an outlet at a downstream end adapted for connection to the second burner, at least one group of injection tubes extending inwards from the side walls of the mixer into the hot gas flow path for admixing the dilution gas to cool the hot gases leaving the first combustion chamber, wherein the at least one group of injection tubes are arranged circumferentially distributed along the side wall of the mixer, the method comprising: feeding dilution gas through a connecting duct which is delimited by a duct wall that is at least partly enclosing the side wall; and diverting the dilution gas from the connection duct into the at least one group of injection tubes by a flow guide which is arranged in the connecting duct and/or the at least one group of injection tubes, wherein the flow guide includes a deflector disposed in the connecting duct above an inlet of an injection tube of the at least one group of injection tubes, and an onset of the deflector is arranged above an inlet of the injection tube and shifted in a flow direction of the dilution gas by a first displacement (w 1 ) relative to an upstream end of a cross section of the injection tube wherein a ratio of the first displacement (w 1 ) to a diameter (D) of the injection tube is in a range of 0.2 to 0.6 and/or that a downstream end of the deflector is arranged shifted in the flow direction of the dilution gas by a second displacement (w 2 ) relative to a downstream end of the cross section of the injection tube wherein a ratio of the second displacement (w 2 ) to the diameter (D) of the injection tube is in a range of 0.1 to 0.45. 12. The method for operating a gas turbine according to claim 11 , comprising: feeding dilution gas through the connection duct with a first flow velocity (v 1 ); and injecting dilution gas in the hot gas flow from the at least one group of injection tubes with a second flow velocity (v 2 ), wherein the ratio of second flow velocity (v 2 ) to first flow velocity (v 1 ) is in the range of 2 to 10. 13. The method for operating a gas turbine according to claim 11 , comprising: feeding dilution gas through the connection duct with a first flow velocity (v 1 ); and feeding a residual flow through an end duct which is delimited by an end wall that is partly enclosing the side wall at a hot gas inlet region of the mixer with a third flow velocity (v 3 ), wherein the ratio of third flow velocity (v 3 ) to first flow velocity (v 1 ) is in the range of 0.3 to 3. 14. A sequential combustor arrangement, comprising: a first burner; a first combustion chamber, a mixer for admi