Method of controlling a wind turbine generator

The invention claimed is: 1. A method for use in controlling a wind turbine generator of a wind power plant based on a condition of a power converter or a component forming part of a power converter in the wind power plant, the method comprising: determining an initial condition of the component; determining an evolution of the condition from the initial condition based on notional power reference values of the wind turbine generator; comparing the evolution of the condition to a predetermined threshold; determining, from comparing the evolution of the condition to the predetermined threshold, a time period by which the condition of the component will substantially equal the predetermined threshold; boosting at least one of active power production or reactive power production of the wind turbine generator during at least a portion of the time period; determining a first derate factor for active power and a second derate factor for reactive power; determining a degrade factor to be applied to the component based on the first and second derate factors; determining, based on the degrade factor, an active power limit and a reactive power limit while prioritizing between active power and reactive power; determining an active power reference and a reactive power reference that satisfy the active power limit and the reactive power limit; and controlling the wind turbine generator using the active power reference and the reactive power reference such that the condition of the component does not meet the predetermined threshold during and after the time period. 2. The method of claim 1 , further comprising controlling the wind turbine generator at the notional power reference values for a duration not exceeding the time period. 3. The method of claim 1 , wherein the condition of the component is a temperature of the component. 4. The method of claim 3 , wherein the initial condition is determined as a non-linear function based on a power loss of the component at current operating parameters and an ambient temperature. 5. The method of claim 3 , wherein the evolution is determined as a non-linear function based on a power loss of the component at the notional power reference values and an ambient temperature. 6. The method of claim 4 , wherein the power loss of the component is determined based on a voltage across the component and a current through the component. 7. The method of claim 1 when applied to a plurality of components, further comprising selecting, from a plurality of time periods, a shortest time period as the time period. 8. The method of claim 1 , further comprising: comparing the initial condition of the component to the predetermined threshold; and, modifying power reference values of the wind turbine generator if the condition substantially equals or exceeds the predetermined threshold. 9. A controller for a wind turbine generator of a wind power plant, comprising: one or more processors; and a memory module communicatively connected to the one or more processors, wherein the memory module comprises a set of program code instructions which when executed by the one or more processors implement an operation for controlling the wind turbine generator based on a condition of a power converter or a component forming part of a power converter in the wind power plant, the operation comprising: determining an initial condition of the component; determining an evolution of the condition from the initial condition based on notional power reference values of the wind turbine generator; comparing the evolution of the condition to a predetermined threshold; and determining, from comparing the evolution of the condition to the predetermined threshold, a time period by which the condition of the component will substantially equal the predetermined threshold; boosting at least one of active power production or reactive power production of the wind turbine generator during at least a portion of the time period; determining a first derate factor for active power and a second derate factor for reactive power; determining a degrade factor to be applied to the component based on the first and second derate factors; determining, based on the degrade factor, an active power limit and a reactive power limit while prioritizing between active power and reactive power; determining an active power reference and a reactive power reference that satisfy the active power limit and the reactive power limit; and controlling the wind turbine generator using the active power reference and the reactive power reference such that the condition of the component does not meet the predetermined threshold during and after the time period. 10. A wind turbine, comprising: a tower; a nacelle disposed on the tower; a generator disposed in the nacelle; a controller configured to perform an operation for controlling the generator based on a condition of a power converter or a component forming part of a power converter in a wind power plant, the operation comprising: determining an initial condition of the component; determining an evolution of the condition from the initial condition based on notional power reference values of the wind turbine generator; comparing the evolution of the condition to a predetermined threshold; and determining, from comparing the evolution of the condition to the predetermined threshold, a time period by which the condition of the component will substantially equal the predetermined threshold; boosting at least one of active power production or reactive power production of the generator during at least a portion of the time period; determining a first derate factor for active power and a second derate factor for reactive power; determining a degrade factor to be applied to the component based on the first and second derate factors; determining, based on the degrade factor, an active power limit and a reactive power limit while prioritizing between active power and reactive power; determining an active power reference and a reactive power reference that satisfy the active power limit and the reactive power limit; and controlling the generator using the active power reference and the reactive power reference such that the condition of the component does not meet the predetermined threshold during and after the time period.