The main purpose of this paper is to design and model a water-pumping system using a submersible multi-stage centrifugal pump driven by a three-phase induction motor. The system is intended for pumping water to the su...The main purpose of this paper is to design and model a water-pumping system using a submersible multi-stage centrifugal pump driven by a three-phase induction motor. The system is intended for pumping water to the surface from a deep well using three power supply systems: a general network, a photo-voltaic (PV) system, and a PV system with a battery bank. These systems are used to compare two three-phase induction motors—namely, a motor with a drive and another one without a drive. The systems dynamic models are simulated in MATLAB/Simulink and the results compared with the manufacturer’s data for validation purposes. The simulation results generally show system dynamics and expected performance over a range of operation.展开更多
This paper studics the problem of speed tracking for the three-phase induction motor with uncertain parametres and load torque disturbance.The PWM control is to control the width of pulse technique.The proposed contro...This paper studics the problem of speed tracking for the three-phase induction motor with uncertain parametres and load torque disturbance.The PWM control is to control the width of pulse technique.The proposed controllerit is the most profound for induction motor with the the PWM control technology. It can control requirements of induction motor speed system under uncertain conditions. The overall control scheme is scientific and reasonable, the output performance of the system is greatly improved. The results of the MATLAB simulation illustrate the proposed approach effctively.展开更多
This paper studies the Loss Minimization Contro (LMC) for an adjustable speed induction motor drive system. Simulation is completed with an improved loss model of the induction motor under nonlinear conditions. Simula...This paper studies the Loss Minimization Contro (LMC) for an adjustable speed induction motor drive system. Simulation is completed with an improved loss model of the induction motor under nonlinear conditions. Simulation results are given with parameters and losses of motor analysed in detail and compared with classical U/f control.Minimum loss control rules and energy saving effect are thus established for the motor.展开更多
Based on the principle of direct torque control,a DTC(Direct Torque Control)system with five-phase induction motor has been studied.Providing direct control of stator flux and electromagnetic torque by optimized volta...Based on the principle of direct torque control,a DTC(Direct Torque Control)system with five-phase induction motor has been studied.Providing direct control of stator flux and electromagnetic torque by optimized voltage vector,five-phase induction motor enhances flexibility of the invert states selection by increasing the number of voltage vectors,resulting in more precise control of stator flux and electromagnetic torque.The model of DTC for five-phase induction motor is constructed on equations and the method of approximate circle of torque track is used to conduct the simulation analysis of the system.The simulation results demonstrate that the DTC for five-phase induction motor control has merits of little calculation compared with vector control,simple structure,fast response and greater dynamic performance.展开更多
This paper applies new maximum-power-point tracking (MPPT) algorithm to a hybrid renewable energy system that combines both Wind-Turbine Generator (WTG) and Solar Photovoltaic (PV) Module (SPVM). In this paper...This paper applies new maximum-power-point tracking (MPPT) algorithm to a hybrid renewable energy system that combines both Wind-Turbine Generator (WTG) and Solar Photovoltaic (PV) Module (SPVM). In this paper, the WTG is a direct-drive system and includes wind turbine, three-phase permanent magnet synchronous generator, three-phase full bridge rectifier, and buck-bust converter, while the SPVM consist of solar PV modules, buck converter, maximum power tracking system for both systems, and load. Several methods are applied to obtain maximum performances, the appropriate and most effective method is called gradient-approximation method for WTG approach, because it enables the generator to operate at variable wind speeds. Furthermore MPPT also is used to optimized the achieved energy generated by solar PV modules.Matlab / Simulink approach is used to simulate, discuss, and optimized the generated power by varying the duty cycle of the converters, and tip speed ratio of the WTG system.展开更多
文摘The main purpose of this paper is to design and model a water-pumping system using a submersible multi-stage centrifugal pump driven by a three-phase induction motor. The system is intended for pumping water to the surface from a deep well using three power supply systems: a general network, a photo-voltaic (PV) system, and a PV system with a battery bank. These systems are used to compare two three-phase induction motors—namely, a motor with a drive and another one without a drive. The systems dynamic models are simulated in MATLAB/Simulink and the results compared with the manufacturer’s data for validation purposes. The simulation results generally show system dynamics and expected performance over a range of operation.
文摘This paper studics the problem of speed tracking for the three-phase induction motor with uncertain parametres and load torque disturbance.The PWM control is to control the width of pulse technique.The proposed controllerit is the most profound for induction motor with the the PWM control technology. It can control requirements of induction motor speed system under uncertain conditions. The overall control scheme is scientific and reasonable, the output performance of the system is greatly improved. The results of the MATLAB simulation illustrate the proposed approach effctively.
文摘This paper studies the Loss Minimization Contro (LMC) for an adjustable speed induction motor drive system. Simulation is completed with an improved loss model of the induction motor under nonlinear conditions. Simulation results are given with parameters and losses of motor analysed in detail and compared with classical U/f control.Minimum loss control rules and energy saving effect are thus established for the motor.
文摘Based on the principle of direct torque control,a DTC(Direct Torque Control)system with five-phase induction motor has been studied.Providing direct control of stator flux and electromagnetic torque by optimized voltage vector,five-phase induction motor enhances flexibility of the invert states selection by increasing the number of voltage vectors,resulting in more precise control of stator flux and electromagnetic torque.The model of DTC for five-phase induction motor is constructed on equations and the method of approximate circle of torque track is used to conduct the simulation analysis of the system.The simulation results demonstrate that the DTC for five-phase induction motor control has merits of little calculation compared with vector control,simple structure,fast response and greater dynamic performance.
文摘This paper applies new maximum-power-point tracking (MPPT) algorithm to a hybrid renewable energy system that combines both Wind-Turbine Generator (WTG) and Solar Photovoltaic (PV) Module (SPVM). In this paper, the WTG is a direct-drive system and includes wind turbine, three-phase permanent magnet synchronous generator, three-phase full bridge rectifier, and buck-bust converter, while the SPVM consist of solar PV modules, buck converter, maximum power tracking system for both systems, and load. Several methods are applied to obtain maximum performances, the appropriate and most effective method is called gradient-approximation method for WTG approach, because it enables the generator to operate at variable wind speeds. Furthermore MPPT also is used to optimized the achieved energy generated by solar PV modules.Matlab / Simulink approach is used to simulate, discuss, and optimized the generated power by varying the duty cycle of the converters, and tip speed ratio of the WTG system.
