Method for feeding electric power into an electric supply network

1 . A method for feeding electric power of a wind park including a plurality of wind turbines into an electric supply network, the method comprising the steps of: feeding the electric power at a network connection point, recording at least one network state parameter at the network connection point using a park control unit, checking the supply network for a presence of a transient process, and in response to detecting the presence of the transient process, the method including at least one of sending and sending at an increased clock rate at least one of the following to the wind turbines; the at least one network state parameter, and control values determined by the park control unit. 2 . The method according to claim 1 , wherein at least one of the following are recorded as the network state parameter at the network connection point: an electrical voltage of the supply network, a phase angle of at least one fed-in current, a value of the at least one fed-in current, and a fed-in reactive power, and wherein a phase of the current to be fed-in is transmitted as the control values to the individual wind turbines. 3 . The method according to claim 1 , wherein the control values transmitted to the wind turbines are individualized for each of the wind turbines or for groups of the wind turbines of the wind park. 4 . The method according to claim 12 , wherein each wind turbine includes a plurality of feed-in units for generating current to be fed into the electric supply network, and the reactive current target value of the respective wind turbine is higher the more feed-in units the respective wind turbine includes. 5 . The method according to claim 12 , wherein at least one of the reactive current target value and an active power set point is determined depending on at least one of a nominal active power rand a nominal current of the respective wind turbine or is transmitted as a value standardized in respect thereto when the respective wind turbine is in operation. 6 . The method according to claim 1 wherein the electric supply network is a three-phase network, and wherein the control values are sent to the wind turbines and the control values are: different from phase to phase, include an unbalance factor, and specified via a positive sequence component and a negative sequence component, with the transmitted control values each specifying one reactive current target value of a reactive current to be fed in. 7 . The method according to claim 1 wherein the presence of the transient process is determined to have occurred when at least one of the following occurs: a line voltage of the supply network drops below a predetermined voltage limit, the line voltage of the supply network exceeds a predetermined upper voltage limit, the line voltage of the supply network changes with a time gradient that in terms of its value exceeds a modification limit and a difference of the line voltage of the supply network is weighted by a reference value and the time gradient of the line voltage is weighted and added up to an overall criterion, wherein the overall criterion in terms of absolute figures or value exceeds an overall limit. 8 . The method according claim 1 further comprising: switching from a stationary to a transient control when a transient process was identified in the supply network), and switching from a transient back to a stationary control when the transient process has ended, and in case of a stationary control the park control unit: does not provide to each wind turbine default values for at least one of a reactive current to be fed in and for a phase angle to be set, sends measured voltage values at the network connection point to the wind turbines as mean values, with a first clock rate:, and in case of a transient control, the park control unit: provides each wind turbine with default values for at least one of a reactive current to be fed in and for a phase angle to be set, sends measured voltage values at the network connection point to the wind turbines as instantaneous values or with a second clock rate that is increased over the first clock rate, and the wind park is controlled such that a minimum total active power to be fed in is not undercut based on the total reactive power at the network connection point fed in or to be fed in at the network connection point. 9 . The method according to claim 1 , wherein when the presence of the transient process is detected, the method includes notifying a network control center that controls the electric supply network. 10 . The method according to claim 1 further comprising continuously measuring the at least one network state parameter at the network connection point at an undiminished first clock rate, wherein the at least one network state parameter is transmitted to the wind turbines at a second clock rate upon detection of a transient process, wherein the second clock rate corresponding to the undiminished first clock rate at which the at least one network state parameter is measured. 11 . A wind park for feeding electric power into an electric supply network at a network connection point, comprising: a plurality of wind turbines, and a park control unit coupled to the plurality of wind turbines, wherein the park control unit performs the method according to claim 1 . 12 . The method according to claim 1 , wherein in response to detecting the presence of the transient process, the method includes sending the at least one network state parameter and the control values at the increased clock rate to the wind turbines. 13 . The method according to claim 3 , wherein: each of the control values provide one reactive current target value of one reactive current to be fed in, a sum of the reactive current target values of all wind turbines provides a total reactive current target value indicating an amount of reactive current to be fed in at the network connection point, and a respective reactive current target value of a wind turbine depends on at least one of the following: a current feed-in capacity of the respective wind turbine, and of the total reactive current target value of the network connection point. 14 . The method according to claim 4 , wherein the reactive current target value of the respective wind turbine is higher the more feed-in units the respective wind turbine has in function.