Power optimization and ripple minimization in switched reluctance motor drives of small modular reactor and a comparison with a permanent magnet motor

Power optimization and ripple minimization in switched reluctance motor drives of small modular reactor and a comparison with a permanent magnet motor

This paper investigates the performance of the permanent magnet and switched reluctance motors (SRMs) used as rod controls driven in a nuclear power plant in parallel. This work aims to suggest ways to overcome torque ripple, which is a notable drawback of SRMs. This will be accomplished by implemen...

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Veröffentlicht in:Progress in nuclear energy (New series) 2021-08, Vol.138, p.103843, Article 103843
Hauptverfasser: Mohammadi, Farzaneh, Molaei, Mohammad, Afra, Omid
Format: Artikel
Sprache:eng
Schlagworte:
Closed loop systems
Closed loops
Control rods
Electric power distribution
Evolutionary algorithms
Evolutionary computation
Motors
Nuclear power plants
Nuclear reactors
Optimization
Permanent magnet motor
Permanent magnets
Reluctance
Ripples
Rod control actuator
Small modular reactor
Switched reluctance motor
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container_title Progress in nuclear energy (New series)
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creator Mohammadi, Farzaneh
Molaei, Mohammad
Afra, Omid
description This paper investigates the performance of the permanent magnet and switched reluctance motors (SRMs) used as rod controls driven in a nuclear power plant in parallel. This work aims to suggest ways to overcome torque ripple, which is a notable drawback of SRMs. This will be accomplished by implementing current control of the motor based on the PI controller in a closed loop. Further, this study intends to optimize the output power of plants so that the input reference can be traced properly. Two algorithms (firefly and differential evolution) are used to optimize the values of the proportional and integral coefficients. Real-time simulation results (carried out using MATLAB © software) demonstrate a 20% improvement in the swings of SRMs. The findings also show that the power distribution could be fully traced. Finally, the performance analysis highlights the effectiveness of the SRM following the proposed control scheme. [Display omitted] •Improving power in small modular reactors.•Decreasing the swing of the torque and power of switched reluctance motor in Nuclear.•Current control of switched reluctance motor in rod control drive mechanism of SMRs.
doi_str_mv 10.1016/j.pnucene.2021.103843
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subjects Closed loop systems
Closed loops
Control rods
Electric power distribution
Evolutionary algorithms
Evolutionary computation
Motors
Nuclear power plants
Nuclear reactors
Optimization
Permanent magnet motor
Permanent magnets
Reluctance
Ripples
Rod control actuator
Small modular reactor
Switched reluctance motor
title Power optimization and ripple minimization in switched reluctance motor drives of small modular reactor and a comparison with a permanent magnet motor
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