Effect of rotor field winding MMF on performance of grid-compliant hybrid-PM slip synchronous wind generator

Amuhaya, L. L.; Kamper, Maarten J.

doi:10.1109/powerafrica.2016.7556612

Cited by 4 publications

(1 citation statement)

References 13 publications

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“…If the system is disrupted, it will lose its equilibrium, forcing the rotor of the motor to accelerate or decelerate in accordance with the spinning body's law of motion. When one generator runs quicker than another over a short period of time, its rotor position relative to the slower motor's rotor advances [9]. The angle difference that results is determined by the power angle relationship, which transfers the load from the slow to the fast machine.…”

Section: Fig 1 -Hydropower Plantmentioning

confidence: 99%

An Optimization of Load Frequency Control Based on Hydraulic Power Plant Using Transfer Function Balanced PID Controller

Delfianti

Priyadi

Abadi

et al. 2021

IJIE

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Power generator often rely on the stability and efficiency. For both active power and reactive power stability, it is needed a device that could control the power. In active power control, the output frequency must be controlled. Load frequency control has become a common solution for frequency control in hydraulic power generating units. The design of the load frequency control is still far from good but has succeeded in controlling the frequency back to normal at each load source and input. In this study, the proposed model is to use a PID controller that has been set with the Transfer Function Balanced tuning method. From the source input simulation results, the proposed model could fix the overshoot frequency by 71.929%. and reached rise time by 4.426 s. From the load input simulation results, the proposed model could fix the undershoot frequency by 58.974%. and reached rise time by 1.076 s.

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Section: Fig 1 -Hydropower Plantmentioning

confidence: 99%