Wind turbine power plant with power saving control method

The invention claimed is: 1. A method for reducing peak power consumption of a power plant which comprises a plurality of power generating units including a plurality of wind turbines, wherein the power plant is connected to an electrical power grid, the method comprises: in response to determining that a power production value of the power plant is below a power threshold: after a first time delay of a first group of one or more wind turbines, controlling the first group to operate in a power saving mode for a predefined first power saving period of the first group; and after a first time delay of a second group of one or more other wind turbines, controlling the second group to operate in the power saving mode for a predefined first power saving period of the second group; wherein the first time delay of the first group is less than the first time delay of the second group; and wherein the power saving mode inhibits a power consuming activity for the wind turbines operating in the power saving mode. 2. The method of claim 1 , comprising: after the first power saving period of the first group has elapsed, controlling the first group to stop operating in the power saving mode; and after the first power saving period of the second group has elapsed, controlling the second group to stop operating in the power saving mode, such that the wind turbines are enabled to consume power. 3. The method of claim 2 , wherein controlling the first group to stop operating in the power saving mode is limited to a second time delay of the first group, and wherein controlling the second group to stop operating in the power saving mode is limited to a second time delay of the second group. 4. The method of claim 1 , wherein the first time delay of the second group is less than or equal to a sum of the first time delay of the first group and first power saving period of the first group. 5. The method of claim 1 , further comprising: checking if the power production value of the power plant is below the power threshold, and if the power production value of the power plant is at or above the power threshold, cancelling any power saving mode. 6. The method of claim 1 , wherein the power production value is based on an actual power production of the power plant. 7. The method of claim 1 , wherein the power production value is based on estimated future power productions of the wind turbines. 8. The method of claim 1 , wherein the power consuming activity comprises one or more of a yawing activity, a cable untwist activity, a hydraulic activity, a cooling activity and a heating activity. 9. The method of claim 1 , wherein the first group is not operating in the power saving mode when the second group operates in the power saving mode. 10. The method of claim 1 , wherein the first and second groups of the one or more wind turbines are determined dependent on the power production value of each of the wind turbines so that the one or more wind turbines of the first group has the lowest sum of power production values and the one or more wind turbines of the second group has the second lowest sum of power production values. 11. The method of claim 1 , further comprising: after a first time delay of a third group of one or more wind turbines, controlling the third group to operate in the power saving mode for a first power saving period of the third group; and wherein the first time delay of the second group is less than the first time delay of the third group. 12. A central controller for controlling power consumption of a power plant, which comprises a plurality of power generating units including a plurality of wind turbines, wherein the power plant is connected to an electrical power grid, wherein the central controller comprises: an I/O interface configured to communicatively couple to the plurality of wind turbines; and one or more processors configured to perform an operation, comprising, in response to determining that a power production value of the power plant is below a power threshold: after a first time delay of a first group of one or more wind turbines, controlling the first group to operate in a power saving mode for a predefined first power saving period of the first group; and after a first time delay of a second group of one or more other wind turbines, controlling the second group to operate in the power saving mode for a predefined first power saving period of the second group; wherein the first time delay of the first group is less than the first time delay of the second group; and wherein the power saving mode inhibits a power consuming activity for the wind turbines operating in the power saving mode. 13. The central controller of claim 12 , comprising: after the first power saving period of the first group has elapsed, controlling the first group to stop operating in the power saving mode; and after the first power saving period of the second group has elapsed, controlling the second group to stop operating in the power saving mode, such that the wind turbines are enabled to consume power. 14. The central controller of claim 13 , wherein controlling the first group to stop operating in the power saving mode is limited to a second time delay of the first group, and wherein controlling the second group to stop operating in the power saving mode is limited to a second time delay of the second group. 15. A power plant, comprising: a plurality of power generating units including at least one wind turbine; and a central controller communicatively coupled to the at least one wind turbine, wherein the central controller is configured to perform an operation, comprising, in response to determining that a power production value of the power plant is below a power threshold: after a first time delay of a first group of one or more wind turbines, controlling the first group to operate in a power saving mode for a predefined first power saving period of the first group; and after a first time delay of a second group of one or more other wind turbines, controlling the second group to operate in the power saving mode for a predefined first power saving period of the second group; wherein the first time delay of the first group is less than the first time delay of the second group; and wherein the power saving mode inhibits a power consuming activity for the wind turbines operating in the power saving mode. 16. The power plant of claim 15 , comprising: after the first power saving period of the first group has elapsed, controlling the first group to stop operating in the power saving mode; and after the first power saving period of the second group has elapsed, controlling the second group to stop operating in the power saving mode, such that the wind turbines are enabled to consume power. 17. The power plant of claim 16 , wherein controlling the first group to stop operating in the power saving mode is limited to a second time delay of the first group, and wherein controlling the second group to stop operating in the power saving mode is limited to a second time delay of the second group. 18. A computer program product comprising non-transitory computer readable medium storing software code which, when executed by one or more processors, control a power plant by performing an operation, comprising: in response to determining that a power production value of the power plant is below a power threshold: after a first time delay of a first group of one or more wind turbines of the power plant, controlling the first group to operate in a power savin