Gas turbine with a bypass line for improved fuel line flushing, and method for flushing a gas turbine

The invention claimed is: 1. A gas turbine comprising: a burner which has at least one fuel supply line and at least one fuel removal line, wherein the at least one fuel supply line is fluidically connected to a flush water line, and wherein the at least one fuel removal line is fluidically connected, via a drainage line, to a leakage oil tank and the at least one fuel removal line and the drainage line are connected at a point downstream of at least one closure valve in the at least one fuel removal line, a bypass line upstream of the at least one closure valve, wherein the bypass line is fluidically connected to the at least one fuel removal line, which bypass line fluidically connects the at least one fuel removal line to the leakage oil tank. 2. The gas turbine as claimed in claim 1 , wherein the bypass line has at least one shutoff valve. 3. The gas turbine as claimed in claim 1 , wherein the drainage line has at least one shutoff valve. 4. The gas turbine as claimed in claim 1 , wherein the at least one fuel removal line has at least two closure valves and the drainage line is fluidically connected to the at least one fuel removal line between the at least two closure valves. 5. A method for flushing fuel from a gas turbine, the method comprising: introducing flush water from a flush water line into at least one fuel supply line under pressure such that the flush water displaces at least part of the fuel in the at least one fuel supply line in a direction of a burner; removing fuel from a fuel removal line by means of the flush water; interrupting part of the removal of fuel from the fuel removal line by closing at least one closure valve in the fuel removal line at a fit time T1; maintaining the removal of fuel from the fuel removal line via a bypass line into a leakage oil tank after the first time T1, wherein the bypass line is fluidically connected to the fuel removal line upstream of the closure valve. 6. The method as claimed in claim 5 , wherein the introduction of flush water from the flush water line into the fuel supply line during shutdown of the gas turbine takes place as long as a compressor end pressure of at least 1.5 bar still prevails. 7. The method as claimed in claim 5 , wherein after a second time T2, greater than the first time T1, at least one shutoff valve in the bypass line is closed in order to thus interrupt the removal of fuel from the fuel removal line via the bypass line into the leakage oil tank. 8. The gas turbine as claimed in claim 1 , wherein the bypass line has two shutoff valves. 9. The method as claimed in claim 5 , wherein the introduction of flush water from the flush water line into the fuel supply line during shutdown of the gas turbine takes place as long as a compressor end pressure is above a pressure level of a fuel supply container. 10. The method as claimed in claim 5 , wherein the gas turbine comprises: wherein the fuel removal line is fluidically connected, via a drainage line, to the leakage oil tank and the fuel removal line and the drainage line are connected at a point downstream of j at least one closure valve in the fuel removal line, and the bypass line is upstream of the at least one closure valve, wherein the bypass line is fluidically connected to the fuel removal line, which bypass line fluidically connects the fuel removal line to the leakage oil tank.