Variable power limit control for gas turbines

The invention claimed is: 1. A method for operating a gas turbine plant having a gas turbine that provides turbine power to an electric generator that produces an electrical output, the method comprising: providing a power limit value defined as a maximum power at which the gas turbine can be operated based on mechanical integrities of individual components of the gas turbine; determining an instantaneous power of the gas turbine; detecting at least one operating parameter of the gas turbine plant; and controlling the gas turbine plant based on the turbine power as a controlled variable by: varying the power limit value as a function of the at least one detected operating parameter, wherein the at least one detected operating parameter comprises a detected ambient pressure, and the power limit value is increased based on an increase in the detected ambient pressure; comparing the instantaneous power with the power limit value; and limiting the instantaneous power in response to a determination that the instantaneous power is equal to or greater than the power limit value, wherein the turbine power is maintained at the power limit value and provided to the electric generator as the power limit value is increased based on the increase in the detected ambient pressure, resulting in a corresponding increase in the electrical output. 2. The method of claim 1 , wherein the at least one detected operating parameter of the gas turbine plant further comprises a selected operating parameter, the selected operating parameter comprising a detected ambient temperature, a detected total running time of the gas turbine or a detected total energy output from the gas turbine plant. 3. The method of claim 2 , wherein the selected operating parameter comprises the detected ambient temperature, and wherein during the varying of the power limit value, the power limit value is increased based on a decrease in the detected ambient temperature. 4. The method of claim 2 , wherein the selected operating parameter comprises the detected total running time of the gas turbine engine, and total wherein during the varying of the power limit value, the power limit value is reduced based on the detected total running time of the gas turbine exceeding a previously determined threshold value. 5. The method of claim 1 , wherein the instantaneous power of the gas turbine is determined indirectly from the electric generator at its electrical outputs. 6. The method of claim 1 , wherein the instantaneous power of the gas turbine is determined directly from a determination of the turbine power. 7. The method of claim 1 , wherein the limiting of the instantaneous power is performed by limiting a compressor mass flow of a compressor of the gas turbine. 8. A gas turbine plant comprising: a gas turbine that provides turbine power, an electric generator connected to the gas turbine that produces an electrical output, and a controller connected to the gas turbine and the electric generator, the controller configured to: provide a power limit value defined as a maximum power at which the gas turbine can be operated based on mechanical integrities of individual components of the gas turbine; determine an instantaneous power of the gas turbine; detect at least one operating parameter of the gas turbine plant; and control the gas turbine plant based on the turbine power as a controlled variable by: varying a power limit value as a function of the at least one detected operating parameter, wherein the at least one detected operating parameter comprises a detected ambient pressure, and the power limit value is increased based on an increase in the detected ambient pressure; comparing the instantaneous power with the power limit value; and limiting the instantaneous power in response to a determination that the instantaneous power is equal to or greater than the power limit value, wherein the turbine power is maintained at the power limit value and provided to the electric generator as the power limit value is increased based on the increase in the detected ambient pressure, resulting in a corresponding increase in the electrical output. 9. A non-transitory computer-readable data carrier having computer-executable program code which, when executed by a controller of the gas turbine plant, carries out the method of claim 1 .