Method for feeding in electrical power using a wind farm

The invention claimed is: 1. A method for feeding electrical power into an electrical supply grid at a grid connection point using a wind farm, wherein the wind farm includes: a plurality of wind power installations that are coupled to the grid connection point by transmission lines; a wind farm controller configured to send active and reactive power specifications to the plurality of wind power installations, and wherein the method comprises: specifying, by the wind farm controller, a first power range for each wind power installation of the plurality of the wind power installations, wherein: the first power range includes a range of values for active and reactive power to be fed in by a respective wind power installation of the plurality of wind power installations, the first power range sets an active power limit to be complied with by the respective wind power installation and the first power range sets a reactive power limit reachable by the respective wind power installation; specifying, by the wind farm controller, a second power range for the grid connection point, wherein: the second power range includes a range of values for active and reactive power to be fed in, the second power range sets an active power limit at the grid connection point to be complied with by the wind farm, and the second power range sets a reactive power limit reachable by the wind farm at the grid connection point; producing by the respective wind power installation of the plurality of wind power installations active and reactive power based on the first power range, and transmitting the active and reactive power to the grid connection point; exceeding by the respective wind power installation of the plurality of wind power installations the active power limit of the first power range; and in response to the active power limit being exceeded, complying, by the wind farm, with the second power range at the grid connection point. 2. The method as claimed in claim 1 , comprising: controlling the respective wind power installation of the plurality of wind power installations such that the respective wind power installation does not reach the reactive power limit of the first power range; and controlling the wind farm to reach the reactive power limit of the second power range, in particular specifically can achieve a reactive power value up to the reactive power limit, which reactive power value is required by a grid operator at a time. 3. The method as claimed in claim 2 , wherein the wind farm reaches a reactive power value up to the reactive power limit, and the reactive power value is requested by a grid operator. 4. The method as claimed in claim 1 , wherein: the respective wind power installation is controlled to output an output power having an active power component and a reactive power component for transmission to the grid connection point, wherein: the output power exceeds the active power limit of the first power range, and/or the output power has an apparent power value that results in the reactive power limit of the first power range not being reached without reducing the active power component, and the transmission lines entirely or partially causes a change in the output power that the second power range is complied with. 5. The method as claimed in claim 4 , wherein: the transmission lines reduce the active power component of an output power output by thermal consumption such that the active power limit of the second power range is complied with, and/or the transmission lines result in a change in the reactive power component of the output power such that the reactive power limit of the second power range is reached. 6. The method as claimed in claim 1 , wherein: a sum of output powers of the plurality of wind power installations before transmission by the transmission lines does not comply with the second power range, and the sum of the output powers transmitted to the grid connection point complies with the second power range at the grid connection point. 7. The method as claimed in claim 1 , comprising: exceeding by the respective wind power installation of the plurality of wind power installations the active power limit of the first power range based on a plurality of test conditions, wherein compliance with a farm specification of the wind farm controller is tested as at least one test condition of the plurality of test conditions, and/or compliance with an installation condition of the respective wind power installation is tested as at least one test condition of the plurality of test conditions. 8. The method as claimed in claim 7 , wherein: the installation condition is a condition selected from a list of conditions including: compliance with an extended power range at the respective wind power installation, the extended power range being greater, at least in a section, than the first power range, compliance with a predetermined maximum temperature in the respective wind power installation, compliance with a predetermined maximum current in the respective wind power installation, and compliance with a predetermined mechanical maximum load of the respective wind power installation. 9. The method as claimed in claim 8 , wherein the respective wind power installation is controlled such that: the respective wind power installation exceeds the first power range while complying with the extended power range only if at least one criterion in the list of conditions is complied with, the respective wind power installation exceeds the extended power range for a predetermined exception period if the predetermined mechanical maximum load is complied with the predetermined maximum current is exceeded for a predetermined second exception period if the predetermined mechanical maximum load is complied with and and/or the predetermined mechanical maximum load is complied with. 10. The method as claimed in claim 9 , wherein: the predetermined maximum temperature is predetermined on the basis of a predetermined tolerance period, at least one first predetermined maximum temperature is specified for a first predetermined tolerance period, at least one second predetermined maximum temperature is specified for a second predetermined tolerance period, and the first predetermined maximum temperature is less than the second predetermined maximum temperature and the first predetermined tolerance period is greater than the second predetermined tolerance period. 11. The method as claimed in claim 7 , wherein: the farm specification includes at least one farm specification value output to each wind power installation of the plurality of wind power installations selected from a list including: an active power maximum value to be complied with by each wind power installation of the plurality of wind power installations, and a reactive power minimum value to be achieved by each wind power installation of the plurality of wind power installations, the at least one farm specification value is determined by the wind farm controller based on the second power range and an instantaneous power fed in at the grid connection point, and the at least one farm specification value is output as a relative value of a nominal power of the wind power installation and/or is individually determined for each wind power installation of the plurality of wind power installations. 12. The method as claimed in claim 7 , wherein the farm specification and the installation condition are tested or the farm specification and at least two installation conditions are tested. 13. The method as claimed in claim 1 , wherein two wind power