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31results about "Fuzzy logic alogrithms" patented technology

Wind turbine blade deflection control system

A wind turbine with a sensor that measures the out-of-plane deflection of the blades and a controller that uses the signal from the sensor to determine the risk of a tower strike. The controller takes any necessary action to prevent a tower strike when it determines that the risk of a strike is high. The sensor can include strain gages or accelerometers mounted on the blades or it can include a fixed sensor mounted on the side of the tower to measure tower clearance as the blade passes by. The control action taken can include pitching blades, yawing the nacelle, or stopping the turbine. The controller is preferably a fuzzy logic controller.
Owner:BOSCHE JOHN VANDEN

Wind turbine blade deflection control system

A wind turbine with a sensor that measures the out-of-plane deflection of the blades and a controller that uses the signal from the sensor to determine the risk of a tower strike. The controller takes any necessary action to prevent a tower strike when it determines that the risk of a strike is high. The sensor can include strain gages or accelerometers mounted on the blades or it can include a fixed sensor mounted on the side of the tower to measure tower clearance as the blade passes by. The control action taken can include pitching blades, yawing the nacelle, or stopping the turbine. The controller is preferably a fuzzy logic controller.
Owner:BOSCHE JOHN VANDEN

System and Method for Controlling a Wind Turbine

A system to control a wind turbine, including meteorological instruments for measuring ambient climatic conditions, and generating corresponding meteorological signals, a memory for storing an icing tolerance, a first calculator for calculating an overall icing probability based on the meteorological signals and a controller for stopping the wind turbine when the overall probability of icing is greater than the icing tolerance. Also disclosed is a method for controlling a wind turbine, including the steps of a) measuring ambient climatic conditions and generating corresponding meteorological signals; b) storing in memory an icing tolerance; c) calculating an overall probability of icing based on the meteorological signals; and d) stopping the wind turbine when the overall probability of icing is greater than the icing tolerance.
Owner:BORALEX

Wind power variable-pitch multi-variable fuzzy neural network PID control method

The invention relates to a wind power variable-pitch multi-variable fuzzy neural network PID control method. The control method includes the following steps that a fuzzy parameter setting module is used for presetting the weight of a PID neural network module; the error between a rotating speed reference value and the actual rotating speed output of a wind driven generator is calculated through a PID calculation module to obtain a reference output quantity of torque of the wind driven generator; the error between the power output value and the power reference value of the wind driven generator and the error change rate are set through the fuzzy parameter setting module to obtain a presetting parameter of the weight of the PID neural network module; through a negative gradient algorithm with a momentum factor, the weight of the PID neural network module is trained, and the reference value output of torque and the reference value output of the pitch angle of the wind driven generator are adjusted. The output power of the wind driven generator can be stabilized nearby a rated valve, and safety of a fan is ensured.
Owner:CETC NINGBO MARINE ELECTRONICS RES INST

Individual pitch control system with controller policy and pitch control method

The invention discloses an individual pitch control system with a controller policy and a pitch control method, and belongs to the technical field of wind power industry. The individual pitch control system comprises a wind driven generator unit main control controller, a variable pitch controller, three sets of servo drives corresponding to blades, a spare power supply, a pitch control motor, an encoder and a limiting switch; the variable pitch controller is respectively communicated with the wind driven generator unit main control controller and the three servo drives; each servo drive is respectively connected with the pitch control motor, the motor encoder, the spare power supply and the limiting switch; the motor encoder is mounted at the tail end of the pitch control motor; and the angle encoder is engaged and linked with blade bearing inner teeth through measuring gears. The individual pitch control system can realize individual pitch control function through the variable pitch controller, realizes safety protection for fault diagnosis, state monitoring, lightning protection and battery management, can properly reduce the fatigue load of fan blades, prolongs the unit service life, is simple and reliable in control, has no need to additionally provide excessive hardware, is lower in cost, and is higher in safety.
Owner:CHINA CREATIVE WIND ENERGY +3

Wind power generation T-S fuzzy robust scheduling fault-tolerant control method

InactiveCN110566403AReasonable designRealize scheduling fault-tolerant control functionWind motor controlEngine fuctionsMathematical modelFuzzy scheduling
The invention relates to a wind power generation T-S fuzzy robust scheduling fault-tolerant control method. The method is technologically characterized in that a T-S fuzzy model of a parameter uncertainty nonlinear system for fault of an actuator is established; based on the nonlinear T-S fuzzy model, a fuzzy special observer is adopted to effectively estimate a system state, a fuzzy proportionalintegral observer is constructed for the uncertainty, the unmeasurable state and the actuator fault of the system, and the fuzzy proportional integral observer is used for accurate reconstruction of fault signals, then a fuzzy scheduling fault-tolerant controller based on observer fault reconstruction is constructed by utilizing a parallel distribution compensation method; and wind power generation T-S fuzzy robust scheduling fault-tolerant control is carried out through the fuzzy scheduling fault-tolerant controller based on the observer fault reconstruction. The method has the advantages that the design is reasonable, by establishing a mathematical model of the nonlinear T-S fuzzy robust scheduling fault-tolerant control method under the influence of the fault of the actuator, the function of wind power generation T-S fuzzy robust scheduling fault-tolerant control is realized, and the method has good steady-state and dynamic performance.
Owner:TIANJIN UNIVERSITY OF SCIENCE AND TECHNOLOGY

Tethered vehicle control and tracking system

A kite system includes a kite and a ground station. The ground station includes a sensor that can be utilized to determine an angular position and velocity of the kite relative to the ground station. A controller utilizes a fuzzy logic control system to autonomously fly the kite. The system may include a ground station having powered winding units that generate power as the lines to the kite are unreeled. The control system may be configured to fly the kite in a crosswind trajectory to increase line tension for power generation. The sensors for determining the position of the kite are preferably ground-based.
Owner:NASA

Tethered Vehicle Control and Tracking System

A kite system includes a kite and a ground station. The ground station includes a sensor that can be utilized to determine an angular position and velocity of the kite relative to the ground station. A controller utilizes a fuzzy logic control system to autonomously fly the kite. The system may include a ground station having powered winding units that generate power as the lines to the kite are unreeled. The control system may be configured to fly the kite in a crosswind trajectory to increase line tension for power generation. The sensors for determining the position of the kite are preferably ground-based.
Owner:NASA

Power tracking method of wind power generation system free of wind speed sensor

InactiveCN110454328AAvoid the effects of maximum power point tracking errorFast trackingWind motor controlMachines/enginesFuzzy ruleEngineering
The invention provides a power tracking method of a wind power generation system free of a wind speed sensor. The method comprises following steps: a motion equation of the maximum power tracking control of the wind power generation system is established; iterative optimization is performed on output power and rotor speed at the variable wind speed with the adoption of a variable step size algorithm, the maximum power point is tracked, and the optimal tip speed ratio is obtained by calculation; a fuzzy controller is adopted as a power controller, errors and error change rate of the tip speed ratio are taken as input, variable quantity of stator side regulation voltage is taken as output, a fuzzy rule is formulated, the output of the fuzzy controller is subjected to ambiguity resolution operation, and the corresponding accurate variable is obtained; the rotating speed of an electric generator is adjusted according to the variable quantity of stator side regulation voltage, control tracking for the rotor speed of the wind power generation system is realized, and the maximum power of the wind power generation system is tracked; adverse effects on output power of the wind power generation system under the conditions of inaccurate wind speed measurement and lagged wind speed measurement are avoided.
Owner:CHANGSHA UNIVERSITY OF SCIENCE AND TECHNOLOGY

Method of load shedding of floating wind turbine generator system based on semi-active structure control of magneto rheological damper

The invention discloses a method of load shedding of a floating wind turbine generator system based on semi-active structure control of a magneto rheological damper. The method includes the following steps: (1) analyzing the structure of the magneto rheological damper, obtaining a force-displacement relationship of the magneto rheological damper; (2) establishing an equation of motion of a multi-degree of freedom system of an offshore floating wind turbine generator system which is configured with the magneto rheological damper, and establishing equations of motion of the wind turbine generator system and the magneto rheological damper; (3) controlling the magneto rheological damper through a LQR controller and a Fuzzy controller so as to reduce the pitch angle of the floating wind turbine generator system and the longitudinal displacement of a nacelle. According to the invention, the method overcomes the defects of passive control and active control in structural control of a damper, requires less extra energy, requires simple apparatus and is not less susceptible to stability loss, can effectively reduce total load of the floating wind turbine generator system, guarantees stability of a platform, and further increases service life and energy quality of output electricity of a wind turbine generator.
Owner:CHONGQING UNIV

Variable-pitch control method based on fuzzy feedforward and fuzzy-PI

The invention discloses a variable-pitch control method based on fuzzy feedforward and fuzzy-PI. The variable-pitch control method comprises fuzzy feedforward control and fuzzy-PI control. A proper feedforward compensation angle is provided according to the interference of the fuzzy feedforward control with the wind speed, and the feedforward compensation angle pluses an output pitch angle of the fuzzy-PI control to serve as the reference value of the pitch angle; and according to the fuzzy-PI control, the fuzzy-PI control is double-mode control composed of the fuzzy control and the PI control; and when the power change range is large, the fuzzy control is adopted, and when the power change range is small, the PI control is smoothly switched to through a nonlinear function. By the adoption of the variable-pitch control method based on the fuzzy feedforward and the fuzzy-PI, the problem that only PID control is used in a strong-nonlinearity wind power system and consequently the satisfactory control effect cannot be achieved is solved, the design difficulty of a controller is lowered, the dynamic-static feature of the system is improved, the output power of an electric generator can be quickly stabilized to be near the rated value, and the impact of wind-power integration on a grid is reduced.
Owner:HARBIN UNIV OF SCI & TECH

Quick non-linear fuzzy predictive control method for speed regulating system of pumped storage unit

The invention discloses a quick non-linear fuzzy predictive control method for a speed regulating system of a pumped storage unit. The quick non-linear fuzzy predictive control method includes the three steps of fuzzy PID parameter self-adaption, online rolling prediction and control law computing. By the adoption of the control method, the function that the fuzzy PID control parameters are adjusted automatically along with the working conditions is achieved, the future system state is predicted through a pumped storage unit speed regulating system non-linear model built in a controller by means of the online rolling prediction method, and the future system state quantity deviation information is considered when a real-time control law is set. By the adoption of the quick non-linear fuzzy predictive control method, the requirements of the control process of the pumped storage unit under different working conditions can be met, the control precision of the unit is improved effectively, and the transient state performance of the operating process of the unit is improved.
Owner:HUAZHONG UNIV OF SCI & TECH

Wind speed feedforward and fuzzy PID combined variable-pitch control method

InactiveCN108412688AAvoid output discontinuity problemGuaranteed stabilityWind motor controlMachines/enginesFuzzy pidSoft switch
The invention provides a wind speed feedforward and fuzzy PID combined variable-pitch control method. The control method is characterized in that when a power error is relatively large, a fuzzy controller is adopted, and a PID controller is adopted when the power error is relatively small. The control method simultaneously utilizes the characteristics of the rapidity of the fuzzy controller and the precision of the PID controller, and a soft switch mode is adopted in the process of switching between the fuzzy controller and the PID controller. According to the wind speed feedforward and fuzzyPID combined variable-pitch control method, a smoothing function is adopted, and the output proportion of the fuzzy controller and the output proportion of the PID controller are adjusted in real timeaccording to the magnitude of the power error, so that the problem of discontinuous output caused by direct switching between the controllers is solved, and the output stability of a system is effectively maintained; and meanwhile, feedforward adjustment of a pitch angle is performed in real time through the measured wind speed, so that a proper feedforward pitch angle can be given according to the characteristics of the wind speed, and the response characteristic of the system is improved.
Owner:SHANGHAI DIANJI UNIV

Hybrid intelligent control method and system for power generating apparatuses

A present invention relates to a novel hybrid intelligent control system and method for power generating apparatuses, in which the control system comprises: a fuzzy sliding mode speed controller, embedded with a fuzzy inference mechanism so as to be used for controlling the speed of a power generating apparatus; and a radial basis function network (RBFN) pitch controller, being embedded with an on-line training RBFN so as to be used for controlling the pitch angle of a turbine coupled to the power generating apparatus. In a variable-speed energy conversion system using the aforesaid control system, the turbine can be driven to operate at its maximum efficiency by adjusting its blade pitch angle in response to the variation of the input flowing into the turbine, while allowing the shaft speed of the power generating apparatus to be controlled by a fuzzy interference mechanism so as to achieve its maximum power output.
Owner:INST NUCLEAR ENERGY RES ROCAEC

Intelligent optimization wind turbine yaw control method and device and wind turbine

InactiveCN110397554ARefining the yaw actionAccurate yaw actionWind motor controlNeural network algorithmsElectricityPrediction algorithms
The embodiment of the invention provides an intelligent optimization wind turbine yaw control method and device and a wind turbine. The method comprises the following steps of correcting a wind direction deviation value by adopting a preset fuzzy neural network prediction algorithm; controlling the starting of a yawing mechanism by respectively adopting different differentiated control strategiesfor high wind speed and low wind speed; and adjusting the direction of the yawing mechanism by adopting a hill climbing algorithm to find the maximum output power. The intelligent optimization wind turbine yaw control method and device and the wind turbine provided by the embodiment of the invention adopt the differentiated control strategy under high and low wind speeds, so that yaw action conditions are refined, and yaw action is more accurate.
Owner:GUODIAN UNITED POWER TECH

Pitch and torque instruction processing system of main control system of wind turbine

The invention discloses a pitch and torque instruction processing system of a main control system of a wind turbine. The pitch and torque instruction processing system comprises a controller input unit, a pitch control unit and a torque control unit; the controller input unit comprises a generator rotating speed module, a rotating speed setting module and a switching control module; the pitch control unit comprises a pitch controller and a pitch amplitude limiting module; the torque control unit comprises a torque controller and a torque amplitude limiting module; and the generator rotating speed module and the rotating speed setting module are used for obtaining rotating speed deviation, the switching control module is used for determining the rotating speed deviation to serve as input ofthe pitch controller or the torque controller, a pitch instruction or a torque instruction is obtained through input determination, and therefore pitch changing or flow changing is achieved. According to the pitch and torque instruction processing system, smooth switching of the wind turbine under various power generation working conditions can be achieved, and maximum power operation of the windturbine under various working conditions is achieved; meanwhile, the wind turbine can be prevented from frequently entering and exiting from a rated working point through the switching control module, the reliability of the wind turbine is improved, and the service life of the wind turbine is prolonged.
Owner:中国东方电气集团有限公司 +1

System and method for controlling a wind turbine

A system to control a wind turbine, including meteorological instruments for measuring ambient climatic conditions, and generating corresponding meteorological signals, a memory for storing an icing tolerance, a first calculator for calculating an overall icing probability based on the meteorological signals and a controller for stopping the wind turbine when the overall probability of icing is greater than the icing tolerance. Also disclosed is a method for controlling a wind turbine, including the steps of a) measuring ambient climatic conditions and generating corresponding meteorological signals; b) storing in memory an icing tolerance; c) calculating an overall probability of icing based on the meteorological signals; and d) stopping the wind turbine when the overall probability of icing is greater than the icing tolerance.
Owner:BORALEX

Wind generation set control method and system

The invention provides a wind generation set control method and system, and relates to the technical field of wind power generation. The wind generation set control method comprises the following steps of acquiring wind speed and a current value and a voltage value of a wind generation set collected by an information acquisition module; determining a target pitch angle of the wind generation set according to the current value and the voltage value of the wind generation set, the wind speed, and the preset optimum leaf edge speed ratio range; acquiring an azimuth angle of wind turbine blades, and determining pitch angles to be adjusted of the turbine blades based on the azimuth angle and the target pitch angle; and controlling the wind generation set to adjust the pitch angles of the turbine blades according to the pitch angles to be adjusted of the turbine blades. The aerodynamic load which the turbine blades are subjected to can be made as small as possible under the premise of ensuring the stabilization of output power of the wind generation set, so that the mechanical wastage of the wind generation set is reduced. Cooperative control over the output power of the wind generationset and the aerodynamic load which the pitch angles are subjected to is realized.
Owner:沈阳工业大学自控技术有限公司

Controlling wind turbine pitch based on position data from position positioning sensor

A method for controlling pitching of at least one rotor blade of a wind turbine includes receiving, via one or more position localization sensors, the position data relating to the at least one rotor blade of the wind turbine. Further, the method includes determining, via a controller, a blade deflection signal of the at least one rotor blade based on the position data. Moreover, the method includes determining, via a computer-implemented model stored in the controller, a pitch command for the at least one rotor blade as a function of the blade deflection signal and an azimuth angle of the at least one rotor blade.
Owner:GENERAL ELECTRIC CO

Pitch control of a wind turbine based position data from position localization sensors

A method for controlling pitching of at least one rotor blade of a wind turbine includes receiving, via one or more position localization sensors, position data relating to the at least one rotor blade of the wind turbine. Further, the method includes determining, via a controller, a blade deflection signal of the at least one rotor blade based on the position data. Moreover, the method includes determining, via a computer-implemented model stored in the controller, a pitch command for the at least one rotor blade as a function of the blade deflection signal and an azimuth angle of the at least one rotor blade.
Owner:GENERAL ELECTRIC CO

Control method for full-hydraulic wind-tide hybrid power generator

The invention discloses a control method for a full-hydraulic wind-tide hybrid power generator. The method comprises the following control modes that (1) electric pitch control is conducted, a reference voltage value at a rated wind speed is set in a fuzzy PID algorithm preset in a central control unit, a voltage signal of real-time wind speed fed back by an anemorumbometer is compared with the reference voltage value, whether electric pitch operation of pneumatic impellers needs to be conducted or not is decided, and a tide impeller adopts the same control method; (2) rotary speed signals of a first rotary speed torque sensor on a wind energy collector and a second rotary speed torque sensor on a tide energy collector and displacement signals of two variable pumps are input into the central control unit and handled through the fuzzy PID algorithm, and the opening degree of a flow divider is controlled according to the handling results; (3) best power tracking control is conducted; and (4) the hydraulic system pressure is adjusted and controlled. Through the method, control is flexible, the reliability is high, and the power generation efficiency is high.
Owner:XIAN UNIV OF TECH

A wind turbine control method and system

The invention provides a wind generation set control method and system, and relates to the technical field of wind power generation. The wind generation set control method comprises the following steps of acquiring wind speed and a current value and a voltage value of a wind generation set collected by an information acquisition module; determining a target pitch angle of the wind generation set according to the current value and the voltage value of the wind generation set, the wind speed, and the preset optimum leaf edge speed ratio range; acquiring an azimuth angle of wind turbine blades, and determining pitch angles to be adjusted of the turbine blades based on the azimuth angle and the target pitch angle; and controlling the wind generation set to adjust the pitch angles of the turbine blades according to the pitch angles to be adjusted of the turbine blades. The aerodynamic load which the turbine blades are subjected to can be made as small as possible under the premise of ensuring the stabilization of output power of the wind generation set, so that the mechanical wastage of the wind generation set is reduced. Cooperative control over the output power of the wind generationset and the aerodynamic load which the pitch angles are subjected to is realized.
Owner:沈阳工业大学自控技术有限公司

Fuzzy expert system-based fan safety chain fault analysis method and system

The invention discloses a fuzzy expert system-based fan safety chain fault analysis method and system. The method comprises the steps of collecting all operation data of safe operation of a wind driven generator; performing fault analysis on the operation data by using a fuzzy expert system; and if a the set has a fault in operation, performing emergency shutdown, and making the set offline. The fault analysis is performed on the safe operation data of the wind generating set by utilizing the fuzzy expert system to determine a fault occurrence type, and with the combination of historical data in a certain time period, the fault analysis accuracy is improved, and the fault maintenance time is shortened; and the system further has a data display function, so that a worker can conveniently check the operation state at any time.
Owner:GUODIAN NANJING AUTOMATION

Variable pitch control method of wind generating set

The embodiment of the invention provides a variable pitch control method of a wind generating set. The variable pitch control method comprises the steps that the overspeed percentage of the rotating speed of a generator of the wind generating set and the overspeed percentage change rate are obtained; and determining the additional variable pitch rate of the wind generating set by using a fuzzy control method based on the obtained overspeed percentage of the rotating speed of the generator of the wind generating set and the overspeed percentage change rate. The additional variable pitch rate of the wind generating set determined by the method is a continuously changing numerical value, so that the wind generating set can reduce the overspeed trend, vibration of the wind generating set cannot be caused, and normal and stable operation of the wind generating set is ensured.

Load shedding method for floating wind turbines based on semi-active structural control of magnetorheological dampers

The invention discloses a load reduction method for a floating wind turbine based on the semi-active structure control of a magnetorheological damper, comprising the steps of: 1) analyzing the structure of the magnetorheological damper to obtain the force-displacement relationship of the magnetorheological damper 2) Establish the motion equation of the multi-degree-of-freedom structural system of the offshore floating wind turbine equipped with the magnetorheological damper, and establish the motion equation of the wind turbine and the magnetorheological damper; 3) use the LQR controller and the Fuzzy controller to control the magnetic The rheological damper is controlled to reduce the platform pitch angle of the floating wind turbine and the longitudinal displacement of the nacelle. The present invention abandons the shortcomings of passive control and active control in damper structure control, requires little external energy for control, is simple in device, is not easy to lose stability, can effectively reduce the overall load of floating wind turbines, and to a certain extent Ensure the stability of the floating platform, thereby improving the service life of the wind turbine and the quality of output power.
Owner:CHONGQING UNIV

A control method for fully hydraulic wind-tidal hybrid power generation equipment

The invention discloses a control method for a full-hydraulic wind-tide hybrid power generator. The method comprises the following control modes that (1) electric pitch control is conducted, a reference voltage value at a rated wind speed is set in a fuzzy PID algorithm preset in a central control unit, a voltage signal of real-time wind speed fed back by an anemorumbometer is compared with the reference voltage value, whether electric pitch operation of pneumatic impellers needs to be conducted or not is decided, and a tide impeller adopts the same control method; (2) rotary speed signals of a first rotary speed torque sensor on a wind energy collector and a second rotary speed torque sensor on a tide energy collector and displacement signals of two variable pumps are input into the central control unit and handled through the fuzzy PID algorithm, and the opening degree of a flow divider is controlled according to the handling results; (3) best power tracking control is conducted; and (4) the hydraulic system pressure is adjusted and controlled. Through the method, control is flexible, the reliability is high, and the power generation efficiency is high.
Owner:XIAN UNIV OF TECH

Early warning method for fan generator bearing fault

The invention discloses an early warning method for a fan generator bearing fault. The early warning method for the fan generator bearing fault comprises the steps that power type data of a plurality of fans and generator bearing temperature type data are acquired; the time period is segmented, and the power type data and the generator bearing temperature type data are matched with time segments to obtain the power type data and the generator bearing temperature type data in the corresponding time segments; according to the sequence of the time segments, the following operations are repeatedly executed in each time segment, specifically, a, according to the power type data and the generator bearing temperature type data collected in the current time segment, clustering is carried out on the a fan, and an early warning value of the generator bearing temperature data is obtained; and b, comparing the generator bearing temperature data with the early warning value, and if the generator bearing temperature data is greater than the early warning value, early warning need to be carried out on a generator corresponding to the generator bearing temperature data. According to the early warning method for the fan generator bearing fault, the early warning capability of a generator bearing can be improved.
Owner:BEIJING GUODIAN SIDA TECH CO LTD

A multi-variable fuzzy neural network pid control method for wind power variable pitch

The invention relates to a wind power variable-pitch multi-variable fuzzy neural network PID control method. The control method includes the following steps that a fuzzy parameter setting module is used for presetting the weight of a PID neural network module; the error between a rotating speed reference value and the actual rotating speed output of a wind driven generator is calculated through a PID calculation module to obtain a reference output quantity of torque of the wind driven generator; the error between the power output value and the power reference value of the wind driven generator and the error change rate are set through the fuzzy parameter setting module to obtain a presetting parameter of the weight of the PID neural network module; through a negative gradient algorithm with a momentum factor, the weight of the PID neural network module is trained, and the reference value output of torque and the reference value output of the pitch angle of the wind driven generator are adjusted. The output power of the wind driven generator can be stabilized nearby a rated valve, and safety of a fan is ensured.
Owner:CETC NINGBO MARINE ELECTRONICS RES INST

Fast nonlinear fuzzy predictive control method for speed regulation system of pumped storage unit

The invention discloses a quick non-linear fuzzy predictive control method for a speed regulating system of a pumped storage unit. The quick non-linear fuzzy predictive control method includes the three steps of fuzzy PID parameter self-adaption, online rolling prediction and control law computing. By the adoption of the control method, the function that the fuzzy PID control parameters are adjusted automatically along with the working conditions is achieved, the future system state is predicted through a pumped storage unit speed regulating system non-linear model built in a controller by means of the online rolling prediction method, and the future system state quantity deviation information is considered when a real-time control law is set. By the adoption of the quick non-linear fuzzy predictive control method, the requirements of the control process of the pumped storage unit under different working conditions can be met, the control precision of the unit is improved effectively, and the transient state performance of the operating process of the unit is improved.
Owner:HUAZHONG UNIV OF SCI & TECH
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