Method for operating wind farm and operation control system for wind farm

The invention claimed is: 1. A method for operating a wind farm having a plurality of wind turbines and an operation control system for controlling the plurality of wind turbines, the method comprising the steps of: obtaining, for each of the wind turbines, a state value indicative of a damage state or a deterioration state of a component; estimating remaining lifetime of the component of each of the wind turbines by using a remaining-lifetime estimation unit of the operation control system, based on the state value; estimating, for each of the wind turbines, an income from sales of electric power under a plurality of power limit conditions by using a sales-income estimation unit of the operation control system; estimating, for each of the wind turbines, maintenance cost by using a maintenance-cost estimation unit of the operation control system, based on the remaining lifetime of the component for each of a plurality of candidate timings of performing coming maintenance on the component under each of the plurality of power limit conditions obtained by the remaining-lifetime estimation unit; selecting, for each of the wind turbines, a set of the power limit condition and the candidate timing that maximizes profit obtained from the wind farm by taking into account a cost reduction effect of performing maintenance together with scheduled maintenance of the wind farm or at the same time as another wind turbine in the wind farm by using a power-limit-condition selection unit and a maintenance-timing selection unit of the operation control system, based on at least the income from sales of electric power and the maintenance cost estimated for each of the wind turbines for each of the candidate timings under each of the power limit conditions which are obtained by the sales-income estimation unit and the maintenance-cost estimation unit, respectively; and operating each of the wind turbines by using an operation command unit of the operation control system, based on the selected power limit condition selected by the power-limit-condition selection unit, wherein, in the step of estimating the maintenance cost, the maintenance cost is estimated under each of the plurality of power limit conditions for each of the plurality of candidate timings including at least one of the following (1) or (2) which is determined based on the remaining lifetime estimated by the remaining-lifetime estimation unit: (1) a timing right before or after a lifetime of another wind turbine whose damage or deterioration of a component progresses fastest among the plurality of wind turbines ends; (2) a current timing in a case where a lifetime of at least one other wind turbine has ended. 2. The method for operating the wind farm according to claim 1 , wherein, in the step of estimating the remaining lifetime, the remaining lifetime of the component is estimated based on temporal change of a state value indicating a damage state or a deterioration state of the component. 3. The method for operating the wind farm according to claim 1 , further comprising the step of: stopping operation of the wind turbine having the component in such a case that the state value of said component is not within a regulation range. 4. A wind farm comprising: a plurality of wind turbines; a state monitoring unit for obtaining, for each of the wind turbines, a state value indicative of a damage state or a deterioration state of a component; a remaining-lifetime estimation unit for estimating remaining lifetime of a component of each of the wind turbines, based on the state value; a sales-income estimation unit for estimating, for each of the wind turbines, an income from sales of electric power under a plurality of output control conditions, for each of a plurality of candidate timings of performing coming maintenance on the component; a maintenance-cost estimation unit for estimating, for each of the wind turbines, maintenance cost based on the remaining lifetime of the component under each of the plurality of power limit conditions; a power-limit-condition selection unit configured to take into account a cost reduction effect of performing maintenance together with scheduled maintenance of the wind farm or at the same time as another wind turbine in the wind farm so as to select, for each of the wind turbines, a power limit condition that maximizes income obtained from the wind farm, based on at least the income from sales of electric power and the maintenance cost estimated for each of the wind turbines for each of sets of the power limit condition and the candidate timing; an operation command unit for sending an operation command to each of the wind turbines based on the selected power limit condition; and a maintenance-timing selection unit for determining a maintenance timing that maximize the profit obtained from the wind farm, based on at least the income from sales of electric power and the maintenance cost estimated for each of the sets of the candidate timing and the power limit condition, wherein the maintenance-cost estimation unit is configured to estimate the maintenance cost under each of the plurality of power limit conditions for each of the plurality of candidate timings including at least one of the following (1) or (2) which is determined based on the remaining lifetime estimated by the remaining-lifetime estimation unit: (1) a timing right before or after a lifetime of another wind turbine whose damage or deterioration of a component progresses fastest among the plurality of wind turbines ends; (2) a current timing in a case where a lifetime of at least one other wind turbine has ended. 5. The wind farm according to claim 4 , wherein the remaining-lifetime estimation unit is configured to estimate the remaining lifetime of the component based on temporal change of a state value indicating a damage state or a deterioration state of the component. 6. The wind farm according to claim 5 , wherein the operation command unit is configured to stop operation of the wind turbine having the component in such a case that the state value of said component is not within a regulation range.