Dynamic wind-energy plant

The invention claimed is: 1 . A method comprising: controlling an electricity distribution grid having a nominal grid voltage, wherein a grid control center is coupled to the electricity distribution grid, wherein the electricity distribution grid has a control region that comprises a plurality of wind farms geographically separated from each other, the controlling comprising: sending one or more requests for available power outputs to the plurality of wind farms; receiving one or more responses indicating the requested available power outputs from the plurality of wind farms; defining a control node within the control region, wherein the control node is based on the requested available power outputs; combining operation of the plurality of wind farms at the control node to form a wind power plant based on the requested available power outputs and a probability distribution of the available power outputs, wherein combining operation of the plurality of wind farms is based on a predefined minimum power output with a minimum availability, wherein the predefined minimum power output depends on a size of the control region; and controlling the wind power plant using a wind power plant controller such that a specified voltage quality, a frequency stability, or an uninterrupted availability, or a combination thereof is provided in the control region, wherein the control node is defined dynamically, and wherein combining the operation of the plurality of wind farms comprises dynamically combining at the calculated control node to form the wind power plant, and wherein the requested available output powers include information about the currently available output powers and the probability distribution of available output powers, wherein the probability distribution of available output powers is based in part on a weather forecast. 2 . The method as claimed in claim 1 , wherein a critical grid situation is a situation from the following list, comprising: voltage drop, voltage failure, transient process, system split, underfrequency, and overfrequency. 3 . The method as claimed in claim 1 , wherein the electricity distribution grid is controlled to generate a stable voltage in the control area that is between 90 and 110 percent of the nominal grid voltage. 4 . The method as claimed in claim 1 , wherein: the wind power plant has a rated power output of at least 250 megawatts (MW) or more, and/or the wind power plant has at least a forecast actual power output of at least 100 MW. 5 . The method as claimed in claim 1 , wherein a first wind farm of the plurality of wind farms is at most 100 kilometers (km) cable length away from a second wind farm of the plurality of wind farms. 6 . The method as claimed in claim 1 , wherein the requested available power outputs are calculated based on at least one weather forecast. 7 . The method as claimed in claim 1 , wherein combining the operation of the plurality of wind farms to form the wind power plant is based on at least one from the following list, comprising: a control region status, a current control region load, and a location of the control node. 8 . The method as claimed claim 1 , wherein a quantity of the plurality of wind farms is based on at least one from the following list, comprising: a control region status, a control region size, a current control region load, a location of the control node, and based on a wind power plant rated power output. 9 . The method as claimed in claim 1 , wherein setpoint values are predefined for controlling the wind power plant, comprising at least one from the following list: active power, reactive power, setpoint frequency, active power/frequency statics, setpoint voltage, and reactive power/voltage statics. 10 . The method as claimed in claim 6 , wherein the available power outputs are calculated using a risk factor of less than 1. 11 . A wind farm comprising: a controller configured to: receive setpoint values; send one or more requests for available power outputs to a plurality of wind farms; receive one or more responses indicating the requested available power outputs from the plurality of wind farms; define a control node within the control region, wherein the control node is based on the requested available power outputs; combine operation of the plurality of wind farms at the control node to form a wind power plant based on the requested available power outputs and a probability distribution of the available power outputs, and based on a predefined minimum power output with a minimum availability, wherein the predefined minimum power output depends on a size of the control region; and control the wind power plant using a wind power plant controller such that a specified voltage quality, a frequency stability, or an uninterrupted availability, or a combination thereof is provided in the control region, wherein the control node is defined dynamically, and wherein combining the operation of the plurality of wind farms comprises dynamically combining at the calculated control node to form the wind power plant, and wherein the requested available output powers include information about the currently available output powers and the probability distribution of available output powers, wherein the probability distribution of available output powers is based in part on a weather forecast. 12 . The method as claimed in claim 1 , wherein the nominal grid voltage is a critical grid situation. 13 . The method as claimed in claim 1 , wherein combining the operation of the plurality of wind farms at the calculated control node to form the wind power plant comprises dynamically combining the operation of the plurality of wind farms. 14 . The method as claimed in claim 1 , wherein defining the control node within the control region comprises defining the control node within the control region based on the requested available power outputs. 15 . The method as claimed in claim 14 , wherein the one or more responses indicating the requested available power outputs are provided to a grid operator. 16 . The method as claimed in claim 1 , wherein controlling the wind power plant comprises controlling the wind power plant using the grid control center.