COORDINATED MANAGEMENT OF AN AGGREGATE TO PROVIDE PRIMARY FREQUENCY CONTROL

Abstract

A method, implemented by a centralized controller, for controlling a virtual power plant connected to the power grid. The virtual power plant includes a battery controlled by a local controller configured to perform primary frequency control of the power grid. The virtual power plant also includes a set of hydroelectric power plants each controlled by a corresponding local controller. The centralized controller provides a power adjustment setpoint to the local controller of the battery so as to compensate for a variation in the total power relative to an overall target power for the set of hydroelectric power plants, and the centralized controller supplies, to at least one local controller of a hydroelectric power plant, at least one power adjustment setpoint, calculated on the basis of a frequency measurement, in accordance with a management strategy for the battery. Figure for abstract: FIG. 4

Description

Claims

1. A method, implemented by a centralized controller, for controlling a virtual electric power plant connected to the power grid, the virtual power plant comprising at least one battery and a set of hydroelectric power plants, the battery being controlled by a local controller configured to perform primary frequency control of the power grid, each hydroelectric power plant being controlled by a corresponding local controller, the method comprising: by at least one measurement, obtaining a total power produced by the set of hydroelectric power plants at a given time,obtaining a measurement of a frequency of the power grid at the given time,supplying a battery power adjustment setpoint to the local controller for the battery, calculated on the basis of said total power, said battery power adjustment setpoint being intended to modify the control of the battery by the local controller so as to compensate for a variation in said total power relative to an overall target power for the set of hydroelectric power plants, andsupplying, to at least one local controller of a hydroelectric power plant, at least one power adjustment setpoint for said hydroelectric power plant calculated on the basis of said frequency measurement, the power adjustment setpoint for said hydroelectric power plant being intended to cause a variation in a power produced by said hydroelectric power plant in accordance with a management strategy for the battery.

2. The method according to claim 1, further comprising: obtaining a value for the power-frequency characteristic of the virtual power plant calculated on the basis of an estimate of an amount of available primary frequency reserve of the virtual power plant.

3. The method according to claim 1, wherein the power adjustment setpoint supplied to the local controller of a hydroelectric power plant is calculated by means of a calculation formula selected according to at least one predefined criterion relating to the frequency measurement.

4. The method according to claim 3, wherein at least one predefined criterion is a result of a comparison between, on the one hand, a deviation between the frequency measurement and a nominal frequency value, and on the other hand a predefined threshold.

5. The method according to claim 1, further comprising: obtaining, from the local controller of each hydroelectric power plant, an individualized measurement of the power produced by said hydroelectric power plant at the given time, andcalculating the total power produced by the set of hydroelectric power plants at the given time as being the sum of said individualized measurements of power at the given time.

6. The method according to claim 1, wherein: the power adjustment setpoint supplied to the local controller of a hydroelectric power plant is calculated relative to a base power of said hydroelectric power plant,said base power being calculated on the basis of a criterion that is a function of a history of time-stamped individualized measurements of power produced by said hydroelectric power plant and of a history of power adjustment setpoints previously supplied to the local controller of said hydroelectric power plant.

7. The method according claim 1, wherein, each hydroelectric power plant of the virtual power plant having its own primary frequency reserve: the power adjustment setpoint supplied to the local controller of a given hydroelectric power plant is calculated according to a predefined order of priority for calling upon each of said primary frequency reserves.

8. The method according to claim 1, further comprising: obtaining a measurement of a state of charge of the battery, andwherein the power setpoint of the battery is further calculated on the basis of said measurement of the state of charge so as to support maintaining, or returning, the state of charge of the battery to within a predefined range.

9. A centralized controller configured for controlling a virtual power plant connected to the power grid, the virtual power plant comprising at least one battery and a set of hydroelectric power plants, the battery being controlled by a local controller configured to perform primary frequency control of the power grid, each hydroelectric power plant being controlled by a corresponding local controller, the controlling of the virtual power plant comprising: by at least one measurement, obtaining a total power produced by the set of hydroelectric power plants at a given time,obtaining a measurement of a frequency of the power grid at the given time,supplying a battery power setpoint to the local controller of the battery, calculated on the basis of said total power, said power setpoint being intended to modify the controlling of the battery by the local controller so as to compensate for a variation in said total power relative to an overall target power for the set of hydroelectric power plants, andsupplying, to at least one local controller of a hydroelectric power plant, at least one power adjustment setpoint calculated on the basis of said frequency measurement, said power adjustment setpoint being intended to cause a variation in a power produced by said hydroelectric power plant in accordance with a management strategy for the battery.

10. A non-transitory computer-readable medium storing a computer program including instructions that, when executed by a processor, causes a centralized controller to control a virtual power plant connected to the power grid, the virtual power plant comprising at least one battery and a set of hydroelectric power plants, the battery being controlled by a local controller configured to perform primary frequency control of the power grid, each hydroelectric power plant being controlled by a corresponding local controller, the controlling of the virtual power plant comprising: by at least one measurement, obtaining a total power produced by the set of hydroelectric power plants at a given time,obtaining a measurement of a frequency of the power grid at the given time,supplying a battery power setpoint to the local controller of the battery, calculated on the basis of said total power, said power setpoint being intended to modify the controlling of the battery by the local controller so as to compensate for a variation in said total power relative to an overall target power for the set of hydroelectric power plants, andsupplying, to at least one local controller of a hydroelectric power plant, at least one power adjustment setpoint calculated on the basis of said frequency measurement, said power adjustment setpoint being intended to cause a variation in a power produced by said hydroelectric power plant in accordance with a management strategy for the battery.