Method of estimating the maximum power generation capacity and for controlling a specified power reserve of a single cycle or combined cycle gas turbine power plant, and a power generating system for use with said method
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An estimation unit can estimate, on a real-time basis, a maximum power generation capacity of a single cycle or combined cycle gas turbine power plant. For example, the actual power output and the maximum power generation capacity can be calculated relying on a mathematical process model. Subsequent
An estimation unit can estimate, on a real-time basis, a maximum power generation capacity of a single cycle or combined cycle gas turbine power plant. For example, the actual power output and the maximum power generation capacity can be calculated relying on a mathematical process model. Subsequently, the calculated actual power output can be compared with the measured power output yielding a model-estimation error. Based on the model-estimation error, a correction signal can be deduced, to correct the calculated maximum power generation capacity. A controller can maintain a specified power reserve. The controller can use an estimate of the maximum power generation capacity as a reference, subtract a load offset, and apply the resulting signal as upper limit of the load set-point.
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1. A method for controlling a specified power reserve of a gas turbine power plant having an input means which generates a load set-point signal for the gas turbine power plant and a controller which receives the load set-point signal and regulates a power output of the gas turbine power plant, the
1. A method for controlling a specified power reserve of a gas turbine power plant having an input means which generates a load set-point signal for the gas turbine power plant and a controller which receives the load set-point signal and regulates a power output of the gas turbine power plant, the method comprising: arranging a processor coupled to a memory to:continuously update an estimate of the maximum power generation capacity of the gas turbine power plant;calculate a load offset by specifying a power reserve and determining the load offset from the specified power reserve;calculate a load limit as a difference of the estimate of the maximum power generation capacity and the load offset; andapply the load limit as an upper limit of the load set-point signal to obtain a limited load set-point signal. 2. A method according to claim 1, wherein the estimate of the maximum power generation capacity is calculated by: arranging the processor to, calculate an actual power output and a maximum power generation capacity of the gas turbine power plant based on a mathematical model of the gas turbine power plant;measure the actual power output of the gas turbine power plant;compare the calculated actual power output and the measured power output to derive a model-estimation error;process the model-estimation error to generate a correction signal; andapply the correction signal to the calculated maximum power generation capacity to obtain a corrected estimate of the maximum power generation capacity of the gas turbine power plant. 3. A method according to claim 1, wherein the calculating of the load offset relies on model assumptions which consider dynamic properties of the gas turbine power plant. 4. A method according to claim 1, wherein the calculating of the load offset relies on an input vector that comprises one or more of the manipulated variables of the controller, which regulates the power output of the gas turbine power plant. 5. A method according to claim 1, wherein the calculating of the load offset relies on an input vector that comprises signals indicative of disturbances. 6. A method according to claim 1, wherein the calculating of the load offset relies on an input vector that comprises power plant process measurements. 7. A method according to one of the claim 1, wherein the calculating of the load offset relies on at least one of a signal indicative of gas turbine compressor inlet temperature, and a signal indicative of coolant temperature of the steam turbine condenser. 8. A method according to claim 1, wherein the specifying of a power reserve includes: specifying a quantity indicative of a desired maximum time within which a desired power capacity has to be provided. 9. A method according to claim 1, wherein the specifying of a power reserve includes: specifying a desired power capacity which is defined as a constant value. 10. A method according to claim 1, wherein the specifying a power reserve includes: a specification of a desired power capacity which is defined as a fixed percentage of the estimate of the maximum power generation capacity. 11. A method according to claim 1, comprising: generating a load signal by adding a load component for frequency support to the limited load set-point signal; andusing use the signal obtained as an input for the controller, which receives a load set-point signal and regulates the power output of the gas turbine power plant. 12. A method according to claim 9, comprising: calculating a second load limit as a sum of the load limit and the desired power capacity;generating a load signal by adding a load component for frequency support to the limited load set-point signal;applying the second load limit as an upper limit of the load signal to obtain a signal; andusing the signal obtained as an input for the controller, which receives a load set-point signal and regulates the power output of the gas turbine power plant. 13. A method according to claim 1, wherein the gas turbine power plant is of single cycle type. 14. A method according to claim 1, wherein the gas turbine power plant is of combined cycle type. 15. A power generating system, comprising: a gas turbine power plant;an input means for generating a load set-point signal for the gas turbine power plant;a controller for receiving the load set-point signal and for regulating the power output of the gas turbine power plant; andan input means for specifying a power reserve;wherein the controller is configured for: operating the gas turbine power plant such that the specified power reserve is maintained;using a continuously updated estimate of the maximum power generation capacity of the gas turbine power plant;calculating a load offset by specifying a power reserve and for determining the load offset from the specified power reserve;calculating a load limit as a difference of said estimate of the maximum power generation capacity and said load offset; andapplying said limit as an upper limit of said load set-point signal to obtain a limited load set-point signal. 16. A power generating system according to claim 15, comprising: a display for displaying to an operator of the power plant, the calculated load limit. 17. A power generating system according to claim 15, wherein the gas turbine power plant is of single cycle type. 18. A power generating system according to claim 15, wherein the gas turbine power plant is of combined cycle type.
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