Variable coefficient wind storage joint primary frequency regulation coordinated control considering rotational speed and SOC method

What is claimed is: 1 . A variable coefficient wind-storage joint primary frequency regulation coordination control method considering rotational speed and state of charge (SOC), comprising: determining, based on an acquired grid frequency, whether a frequency deviation exceeds a primary frequency regulation dead zone; when the frequency deviation exceeds the primary frequency regulation dead zone, determining a system frequency regulation demand power based on the frequency deviation; determining a current frequency regulation power based on an acquired rotational speed of wind turbines, wherein the current frequency regulation power is provided by the wind turbines; determining a frequency regulation strategy based on the system frequency regulation demand power and the current frequency regulation power; and executing the frequency regulation strategy; wherein the step of determining the system frequency regulation demand power based on the frequency deviation comprises: determining a first power based on the frequency deviation and a first coefficient; determining a second power based on the frequency deviation and a second coefficient; and determining the system frequency regulation demand power based on a difference between the first power and the second power; wherein the step of determining the current frequency regulation power based on the acquired rotational speed of the wind turbines comprises: determining a historical rotational speed of the wind turbines; determining a virtual inertia time constant of the wind turbines; and determining the current frequency regulation power based on the historical rotational speed, the rotational speed of the wind turbines, and the virtual inertia time constant. 2 . The variable coefficient wind-storage joint primary frequency regulation coordination control method according to claim 1 , wherein the step of determining, based on the acquired grid frequency, whether the frequency deviation exceeds the primary frequency regulation dead zone comprises: obtaining a system-rated frequency and the primary frequency regulation dead zone, wherein the primary frequency regulation dead zone is preset; determining the frequency deviation based on the acquired grid frequency and the system-rated frequency; and determining that the frequency deviation does not exceed the primary frequency regulation dead zone when the frequency deviation is within a range corresponding to the primary frequency regulation dead zone; otherwise, determining that the frequency deviation exceeds the primary frequency regulation dead zone. 3 . The variable coefficient wind-storage joint primary frequency regulation coordination control method according to claim 1 , wherein the step of determining the frequency regulation strategy based on the system frequency regulation demand power and the current frequency regulation power comprises: determining that the frequency regulation strategy is turbine participation in primary frequency regulation when the current frequency regulation power is greater than or equal to the system frequency regulation demand power; and determining that the frequency regulation strategy is joint wind-storage participation in the primary frequency regulation when the current frequency regulation power is less than the system frequency regulation demand power. 4 . The variable coefficient wind-storage joint primary frequency regulation coordination control method according to claim 3 , wherein the step of determining that the frequency regulation strategy is the turbine participation in the primary frequency regulation when the current frequency regulation power is greater than or equal to the system frequency regulation demand power comprises: determining the system frequency regulation demand power and an actual frequency regulation power of the wind turbines simultaneously when the current frequency regulation power is greater than or equal to the system frequency regulation demand power; determining an inertia coefficient based on simultaneous equations and the virtual inertia time constant; and determining a variable coefficient virtual inertia control strategy based on the inertia coefficient. 5 . The variable coefficient wind-storage joint primary frequency regulation coordination control method according to claim 3 , wherein the step of determining that the frequency regulation strategy is the joint wind-storage participation in the primary frequency regulation when the current frequency regulation power is less than the system frequency regulation demand power comprises: determining a droop coefficient of an energy storage device based on the frequency deviation and a collected state of the energy storage device when the current frequency regulation power is less than the system frequency regulation demand power; and determining the frequency regulation strategy as the joint wind-storage participation in the primary frequency regulation based on the current frequency regulation power and the droop coefficient. 6 . The variable coefficient wind-storage joint primary frequency regulation coordination control method according to claim 1 , wherein after the step of determining, based on the acquired grid frequency, whether the frequency deviation exceeds the primary frequency regulation dead zone, the variable coefficient wind-storage joint primary frequency regulation coordination control method further comprises: when the frequency deviation does not exceed the primary frequency regulation dead zone, determining whether to initiate an energy storage recovery strategy based on a collected state of an energy storage device; when the energy storage recovery strategy is initiated, determining a charging recovery coefficient and a discharging recovery coefficient based on the collected state of the energy storage device and preset minimum, median, and maximum energy storage values; and executing the energy storage recovery strategy based on the charging recovery coefficient and the discharging recovery coefficient. 7 . A variable coefficient wind-storage joint primary frequency regulation coordination control device considering rotational speed and SOC, comprising: a memory; a processor; and a frequency regulation control program stored in the memory and executable on the processor, wherein the processor executes the frequency regulation control program to perform steps of the variable coefficient wind-storage joint primary frequency regulation coordination control method according to claim 1 . 8 . A computer-readable storage medium, wherein a frequency regulation control program is stored on the computer-readable storage medium, and the frequency regulation control program, when executed by a processor, performs steps of the variable coefficient wind-storage joint primary frequency regulation coordination control method according to claim 1 . 9 . The variable coefficient wind-storage joint primary frequency regulation coordination control device according to claim 7 , wherein in the variable coefficient wind-storage joint primary frequency regulation coordination control method, the step of determining, based on the acquired grid frequency, whether the frequency deviation exceeds the primary frequency regulation dead zone comprises: obtaining a system-rated frequency and the primary frequency regulation dead zone, wherein the primary frequency regulation dead zone is preset; determining the frequency deviation based on the acquired grid frequency and the system-rated frequency; and determining that the frequency deviation does not exceed the primary frequency regulation dead zone when the frequency deviation is within a range corresponding to t