Condensate flow rate control device and condensate flow rate control method for power plant

The invention claimed is: 1. A condensate flow rate control device for a power plant, the power plant having: a boiler; a steam turbine configured such that steam generated by the boiler is introduced thereinto; a generator configured to be driven by the steam turbine; a condenser configured such that exhaust hot steam from the steam turbine is supplied thereto; a deaerator water level adjustment valve; a deaerator configured such that condensate generated by the condenser is supplied via the deaerator water level adjustment valve thereinto and bleed steam from the steam turbine is introduced thereinto; a condensate flow path extending from the deaerator water level adjustment valve to the deaerator configured such that the condensate is supplied to the deaerator therethrough: and a feed pump configured to supply feedwater deaerated by the deaerator to the boiler, the condensate flow rate control device comprising a water level adjustment unit configured to perform condensate flow rate control such that a frequency fluctuation or a requested load change is inputted into the water level adjustment unit, and the water level adjustment unit adjusts pressure in the condensate flow path and thereby adjusts an amount of bleed steam from the steam turbine so that the inputted frequency fluctuation is suppressed or an output value of the generator conforms to the inputted requested load change, wherein based on a preset relationship between a fluctuation width of a frequency fluctuation or a change width of a requested load change and a change width of a water level or a holding water amount of the deaerator, the water level adjustment unit is configured to calculate a setting value of the water level or a setting value of the holding water amount from the frequency fluctuation or the requested load change and output an opening instruction to the deaerator water level adjustment valve so that the water level or the holding water amount of the deaerator assumes the setting value of the water level or the setting value of the holding water amount; an allowable control count calculating unit configured to display at least one estimated value of a fluctuation width of a frequency fluctuation or a change width of a requested load change which is estimated to be inputted and compute a remaining number of times the water level adjustment unit can conduct the condensate flow rate control based on the estimated value, a detected value of a water level or a holding water amount of the deaerator, and a lower limit of the water level or the holding water amount of the deaerator; and a display unit configured to display the remaining number of times computed by the allowable control count calculating unit in association with the estimated value. 2. The condensate flow rate control device for a power plant according to claim 1 , wherein the power plant comprises a low-pressure heater which is arranged in the condensate flow path, and which is configured such that bleed steam is supplied from the steam turbine thereto and heats the condensate. 3. The condensate flow rate control device for a power plant according to claim 1 , further comprising a return unit configured to conduct return control for returning a setting value of the water level, a setting value of the holding water amount, or an opening of the deaerator water level adjustment valve to a setting value prior to the condensate flow rate control by the water level adjustment unit when a predetermined return condition is satisfied. 4. The condensate flow rate control device for a power plant according to claim 3 , wherein the return unit is configured to return the setting value of the water level, the setting value of the holding water amount, or the opening of the deaerator water level adjustment valve to a setting value prior to the condensate flow rate control by the water level adjustment unit at a constant rate of change or in stages. 5. The condensate flow rate control device for a power plant according to claim 3 , wherein the return unit is configured to calculate a deviation between an instruction final value of a requested load in the requested load change and an output value of the generator, and conduct the return control when the deviation equals or falls below a preset threshold as the return condition. 6. The condensate flow rate control device for a power plant according to claim 3 , wherein the return unit is configured to calculate a rate of change of the output value of the generator, and conduct the return control when the rate of change equals or exceeds a preset threshold as the return condition. 7. The condensate flow rate control device for a power plant according to claim 3 , wherein the return unit is configured such that a detected value of a water level or a holding water amount of the deaerator is inputted thereto, and the return unit is configured to conduct the return control when the detected value of the water level or the holding water amount reaches a setting value of the water level or the holding water amount as the return condition. 8. The condensate flow rate control device for a power plant according to claim 3 , wherein the return unit is configured to conduct the return control upon lapse of a set period that is set in advance from a moment of occurrence of the frequency fluctuation or the requested load change as the return condition. 9. The condensate flow rate control device for a power plant according to claim 3 , wherein the return unit is configured to conduct the return control upon lapse of a set period that is set in advance from a moment when frequency or the output value of the generator reaches a target frequency setting or a requested load setting as the return condition. 10. The condensate flow rate control device for a power plant according to claim 1 , wherein the water level adjustment unit is configured to calculate a setting value of the water level or a setting value of the holding water amount based on a differential value of a fluctuation width of the frequency fluctuation or a differential value of a change width of the requested load change. 11. The condensate flow rate control device for a power plant according to claim 1 , wherein the water level adjustment unit is configured such that the detected value of the water level or the holding water amount of the deaerator at a moment of occurrence of the frequency fluctuation or the requested load change is inputted thereto and when the detected value of the water level or the detected value of the holding water amount is lower than a preset threshold, the water level adjustment unit is configured to disable the condensate flow rate control or conducts the condensate flow rate control while adjusting the setting value of the water level or the setting value of the holding water amount. 12. The condensate flow rate control device for a power plant according to claim 1 , further comprising a switch configured to be operated by a manager and be used to switch between enabling and disabling the condensate flow rate control by the water level adjustment unit. 13. The condensate flow rate control device for a power plant according to claim 12 , wherein when the fluctuation width of the frequency fluctuation or the change width of the requested load change that is consistent with the estimated value is inputted and the number of times computed based on the estimated value is zero, the condensate flow rate control by the water level adjustment unit is configured to be disabled regardless of operations of the switch by the manager. 14. The condensate flow rate control