Method for operating a gas and steam turbine plant and monitoring a liquid level in a plurality of downpipes

The invention claimed is: 1. A method for operating a gas and steam turbine plant, comprising: routing a flue gas exiting a gas turbine through a waste heat steam generator; conducting a flow medium used to drive a steam turbine in a flow medium circuit; and monitoring a height of a column of liquid formed by the flow medium in a plurality of downpipes connected to a steam collection drum, wherein the flow medium circuit comprises a plurality of pressure stages, wherein at least one of the pressure stages features an evaporator circuit including the steam collection drum with the plurality of downpipes connected to the steam collection drum and with a plurality of riser pipes connected downstream from the plurality of downpipes and connected to the steam collection drum, and wherein the plurality of riser pipes are heated by the flue gas in the waste heat steam generator. 2. The method as claimed in claim 1 , further comprising monitoring a temperature of the flue gas in an area of the plurality of riser pipes, and wherein in an operating state when a liquid level is below a level of a connection to the steam collection drum in the plurality of downpipes, a safety measure is initiated when the temperature exceeds a predetermined threshold value. 3. The method as claimed in claim 2 , wherein the threshold value is predetermined as a function of the liquid level in the plurality of downpipes. 4. The method as claimed in claim 2 , wherein the safety measure includes opening a bypass line of a condensate preheater connected downstream from the evaporator circuit on a flow medium side or opening a feed water preheater arranged before the evaporator circuit on a flue gas side. 5. The method as claimed in claim 2 , wherein the safety measure includes initiating a power reduction of the gas turbine plant or a rapid shutdown of the gas turbine plant and/or at least partially diverting the flue gas coming out of the gas turbine past the waste heat and steam generator. 6. The method as claimed in claim 1 , further comprising monitoring the height of the column of liquid in the plurality of downpipes in a last evaporator circuit seen in the direction of flow of the flue gas, wherein the last evaporator circuit is embodied as a low-pressure circuit, and wherein the flow medium circuit comprises at least three pressure stages, each pressure stage including one evaporator circuit, with the plurality of riser pipes of the at least three evaporator circuits seen in the flow direction of the flue gas arranged behind one another in the waste heat steam generator. 7. The method as claimed in claim 6 , further comprising monitoring the height of the column of liquid in the plurality of downpipes of a middle evaporator circuit seen in the direction of flow of the flue gas, and wherein the middle evaporator circuit is embodied as a medium-pressure evaporator circuit. 8. A gas and steam turbine plant, comprising: a gas turbine; a waste heat steam generator connected downstream from the gas turbine on an exhaust gas side; and a flow medium circuit comprising a plurality of pressure stages, wherein a flow medium used to drive a steam turbine is conducted in the flow medium circuit, wherein at least one of the pressure stages features an evaporator circuit including a steam collection drum with a plurality of downpipes connected to the steam collection drum and with a plurality of riser pipes connected downstream from the downpipes and connected to the steam collection drum, wherein the plurality of flue pipes is heated by the flue gas in the waste heat steam generator, wherein a level measurement facility measures the height of the column of liquid formed by the flow medium in the plurality of downpipes, and wherein the level measurement facility is connected on a signal side to a monitoring and control facility for the gas and steam turbine plant. 9. The gas and steam turbine plant as claimed in claim 8 , wherein the monitoring and control facility is linked on the signal side to a temperature measurement facility monitoring the temperature of the flue gas in the area of the plurality of riser pipes, and wherein the monitoring and control facility is configured such that, in an operating state when a liquid level is below a level of a connection to the steam collection drum in the plurality of downpipes, a safety measure is initiated as soon as the temperature measured by the temperature measurement facility exceeds a predetermined threshold value. 10. The gas and steam turbine plant as claimed in claim 9 , wherein the threshold value is predetermined as a function of the liquid level in the plurality of downpipes. 11. The gas and steam turbine plant as claimed in claim 9 , wherein the safety measure includes opening a bypass line of a condensate preheater connected downstream from the evaporator circuit on a flow medium side or opening a feed water preheater arranged before the evaporator circuit on a flue gas side. 12. The gas and steam turbine plant as claimed in claim 9 , wherein the safety measure includes initiating a power reduction of the gas turbine plant or a rapid shutdown of the gas turbine plant and/or at least partially diverting the flue gas coming out of the gas turbine past the waste heat and steam generator. 13. The gas and steam turbine plant as claimed in claim 8 , further comprising monitoring the height of the column of liquid in the plurality of downpipes in a last evaporator circuit seen in the direction of flow of the flue gas, wherein the last evaporator circuit is embodied as a low-pressure circuit, and wherein the flow medium circuit comprises at least three pressure stages, each pressure stage including one evaporator circuit, with the plurality of riser pipes of the at least three evaporator circuits seen in the flow direction of the flue gas arranged behind one another in the waste heat steam generator. 14. The gas and steam turbine plant as claimed in claim 13 , further comprising monitoring the height of the column of liquid in the plurality of downpipes of a middle evaporator circuit seen in the direction of flow of the flue gas, and wherein the middle evaporator circuit is embodied as a medium-pressure evaporator circuit.