Output control device and output control method for wind farm

The invention claimed is: 1. An output control device for a wind farm which includes n number, of wind turbines, n being an integer of two or more, the output control device comprising: a WTG output obtaining unit for obtaining a current output P i of each of the wind turbines where i=1, . . . , n; an extractable output calculation unit for calculating an extractable output Pmax i for each of the wind turbines where i=1, . . . , n, the extractable output Pmax i being energy extractable from wind energy; a potential output calculation unit for calculating a potential output Ppot i of each of the wind turbines based on a difference between the extractable output Pmax i and the current output P i of each of the wind turbines where i=1, . . . , n; and a WTG output determination unit for determining an output command value of each of the wind turbines so that a total output P WF of the wind farm becomes closer to an output target value P WF *, wherein the WTG output determination unit is configured to assign an output increase amount to each of the wind turbines based on the potential output Ppot i of each of the wind turbines and to determine the output command value based on the output increase amount, when the output target value P WF * of the wind farm is greater than the total output P WF of the wind farm, and assign the output increase amount only to the wind turbines in which a rotor rotation speed has reached a rated rotation speed. 2. An output control device for a wind farm which includes n number of wind turbines, n being an integer of two or more, the output control device comprising: a WTG output obtaining unit for obtaining a current output P i of each of the wind turbines where an extractable output calculation unit for calculating an extractable output Pmax i for each of the wind turbines where i=1, . . . , n, the extractable output Pmax i being energy extractable from wind energy; a potential output calculation unit for calculating a potential output Ppot i of each of the wind turbines based on a difference between the extractable output Pmax i and the current output P i of each of the wind turbines where i=1, . . . , n; and a WTG output determination unit for determining an output command value of each of the wind turbines so that a total output P WF of the wind farm becomes closer to an output target value P WF *, wherein the WTG output determination unit is configured to assign an output increase amount to each of the wind turbines based on the potential output Ppot i of each of the wind turbines and to determine the output command value based on the output increase amount, when the output target value P WF * of the wind farm is greater than the total output P WF of the wind farm, and assign the output increase amount only to the wind turbines in which the potential output Ppot i is greater than a threshold value Ppot th where Ppot th >0. 3. The output control device for the wind farm according to claim 1 , wherein the WTG output determination unit is configured to obtain the output command value for each of the wind turbines so that the output increase amount of each of the wind turbines is proportional to an amount of the potential output Ppot i . 4. The output control device for the wind farm according to claim 1 , further comprising: a WTG output correction unit for correcting the output command value so that a sum of differences between the total output P WF and the output target value P WF * is at least partially compensated. 5. The output control device for the wind farm according to claim 4 , wherein the WTG output correction unit is configured to correct the output command value only in a period excluding a transient period from a point when the output target value P WF * is updated to a point when the total output P WF reaches an updated value of the output target value P WF *. 6. The output control device for the wind farm according to claim 4 , wherein the WTG output correction unit is configured to correct the output command value based on at least one of: the difference between the total output P WF and the output target value P WF *; a change rate of the total output P WF of the wind farm; a change rate of the current output P i of each of the wind turbines where i=1, . . . , n; a difference between the current output P i of each of the wind turbines and a current output command value Pout i ; and a change rate of a wind speed for each of the wind turbines. 7. The output control device for the wind farm according to claim 1 , further comprising: an output change rate controller for controlling an output change rate of the total output P WF of the wind farm, wherein the output change rate controller is configured to: limit a change rate of the total output P WF of the wind farm to a first change rate in a transient period from a point when the output target value P WF * is updated to a point when the total output P WF reaches an updated value of the output target value P WF *; and limit the change rate of the total output P WF of the wind farm to a second change rate in a period excluding the transient period, the second change rate being greater than the first change rate. 8. The output control device for the wind farm according to claim 2 , further comprising: an output change rate controller for controlling an output change rate of the total output P WF of the wind farm, wherein the output change rate controller is configured to: limit a change rate of the total output P WF of the wind farm to a first change rate in a transient period from a point when the output target value P WF * is updated to a point when the total output P WF reaches an updated value of the output target value P WF *; and limit the change rate of the total output P WF of the wind farm to a second change rate in a period excluding the transient period, the second change rate being greater than the first change rate. 9. An output control method for a wind farm which includes n number of wind turbines, n being an integer of two or more, the output control method comprising the steps of: obtaining a current output P i of each of the wind turbines, where i=1, . . . , n; calculating an extractable output Pmax i for each of the wind turbines where i=1, . . . , n, the extractable output Pmax i being extractable energy from wind energy; calculating a potential output Ppot i of each of the wind turbines based on a difference between the extractable output Pmax i and the current output P i of each of the wind turbines where i=1, . . . , n; and determining an output command value of each of the wind turbines so that a total output P WF of the wind farm becomes closer to an output target value P WF *, wherein, in the step of determining the output command value, when the output target value P WF * of the wind farm is greater than the total output P WF of the wind farm, an output increase amount is assigned to each of the wind turbines based on the potential output Ppot i of each of the wind turbines and the output command value is determined based on the output increase amount, and the WTG output determination unit assigns the output increase amount only to the wind turbines in which a rotor rotation speed has reached a rated rotation speed.