Wind power generation system and wind power generation method

What is claimed is: 1. A wind power generation system comprising: a windmill configured to rotate upon a receipt of an airflow; a lift improvement device having an operation state and a non-operation state, the lift improvement device in the operation state increasing a lift force to the windmill; a power generator configured to generate power by rotation of the windmill with a torque suppressing rotation of the windmill; a control database comprising a storage storing at least a first control map and a second control map, the first control map indicating a relation between rotation speed and torque of the power generator when the lift improvement device is in the operation state, the second control map indicating a relation between rotation speed and torque of the power generator when the lift improvement device is in the non-operation state, the first control map being different than the second control map; and a controller configured to control a power generation amount of the power generator in accordance with the first control map in response to the lift improvement device being in the operation state and in accordance with the second control map in response to the lift improvement device being in the non-operation state, wherein the rotation speeds in the first and second control maps have a low speed rotation area, a medium speed rotation area, and a high speed rotation area, and wherein for any rotation speed in the medium rotation area, the torque in the medium speed rotation area of the first control map is larger than the torque in the medium speed rotation area of the second control map, when the rotation speeds in the first and second control maps are equal to each other. 2. The wind power generation system according to claim 1 , wherein the torque in the low speed rotation area of the first control map is larger than the torque in the low speed rotation area of the second control map, when the rotation speeds in the first and second control maps are equal to each other. 3. The wind power generation system according to claim 1 , wherein, the torque in the first control map is larger than the torque in the second control map, when the rotation speeds in the first and second control maps are equal to each other. 4. The wind power generation system according to claim 1 , wherein the windmill includes a plurality of blades, and the lift improvement device is a plurality of airflow generation devices, each device being disposed at a respective blade and including a first electrode on the blade and a second electrode in the blade, the device being configured to generate a flow of plasma by applying a voltage between the first and second electrodes to increase a lift force to the blade. 5. A wind power generation method in a wind power generation system, the wind power generation system having a windmill configured to rotate upon a receipt of an airflow, a lift improvement device having an operation state and a non-operation state, the lift improvement device in the operation state increasing a lift force to the windmill, and a power generator configured to generate power by rotation of the windmill with a torque suppressing rotation of the windmill, the wind power generation method comprising: storing a control database comprising a first control map and a second control map, the first control map indicating a relation between rotation speed and torque of the power generator when the lift improvement device is in the operation state, the second control map indicating a relation between rotation speed and torque of the power generator when the lift improvement device is in the non-operation state, the first control map being different from the second control map; and controlling a power generation amount of the power generator in accordance with the first control map in response to the lift improvement device being in the operation state and in accordance with the second control map in response to the lift improvement device being in the non-operation state, wherein the rotation speeds in the first and second control maps have a low speed rotation area, a medium speed rotation area, and a high speed rotation area, and wherein for any rotation speed in the medium rotation area, the torque in the medium speed rotation area of the first control map is larger than the torque in the medium speed rotation area of the second control map, when the rotation speeds in the first and second control maps are equal to each other.