Mathematical Approaches to Modeling, Optimally Designing, and Controlling Electric Machine

Optimal performance of the electric machine/drive system is mandatory to improve the energy consumption and reliability. To achieve this goal, mathematical models of the electric machine/drive system are necessary. Hence, this motivated the editors to instigate the Special Issue “Mathematical Approa...

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Udgivet: MDPI - Multidisciplinary Digital Publishing Institute 2022
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collection Directory of Open Access Books
description Optimal performance of the electric machine/drive system is mandatory to improve the energy consumption and reliability. To achieve this goal, mathematical models of the electric machine/drive system are necessary. Hence, this motivated the editors to instigate the Special Issue “Mathematical Approaches to Modeling, Optimally Designing, and Controlling Electric Machine”, aiming to collect novel publications that push the state-of-the art towards optimal performance for the electric machine/drive system. Seventeen papers have been published in this Special Issue. The published papers focus on several aspects of the electric machine/drive system with respect to the mathematical modelling. Novel optimization methods, control approaches, and comparative analysis for electric drive system based on various electric machines were discussed in the published papers.
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publisher MDPI - Multidisciplinary Digital Publishing Institute
publisherStr MDPI - Multidisciplinary Digital Publishing Institute
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spelling doab-20.500.12854ir-771132024-04-09T23:15:51Z Mathematical Approaches to Modeling, Optimally Designing, and Controlling Electric Machine Prakht, Vladimir Ibrahim, Mohamed N. Anuchin, Aleksey S. demagnetization electric machine flux reversal machine high-speed electrical machine high-speed electrical motor Nelder–Mead method optimal design switched reluctance motor direct instantaneous torque control numerical analysis optimization current angle design of electric motors flux-barriers synchronous reluctance motor torque ripple induction motor model predictive sensorless high performance switched reluctance machine NSGA-II optimization finite element analysis direct-drive electric machine analysis computing interior permanent magnet machine mathematical model optimal-design permanent magnet flux-switching machine wind generator doubly fed induction generator DC-link voltage regulation second-order sliding mode control extended state observer fuzzy gain scheduling advanced metaheuristics MO-Jaya optimization centrifugal pump energy efficiency parallel pumps throttling variable speed pump synchronous homopolar machine synchronous homopolar motor traction drives traction motor high-harmonic injection brushless field excitation wound field synchronous machines Axial flux permanent magnet machine 3D FEA Genetic algorithm hexagonal-shaped PMs PM overhang brushless topology third harmonic flux dc offset direct-on-line permanent magnet synchronous motor direct-on-line synchronous reluctance motor permanent magnet motor reactive power compensation carbon dioxide emissions climate change mitigation electric motors energy conversion energy efficiency class energy policy and regulation energy saving sustainable utilization of resources synchronous motor adaptive control MTPA control parameter variation constraints design mining dump truck traction drive thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues Optimal performance of the electric machine/drive system is mandatory to improve the energy consumption and reliability. To achieve this goal, mathematical models of the electric machine/drive system are necessary. Hence, this motivated the editors to instigate the Special Issue “Mathematical Approaches to Modeling, Optimally Designing, and Controlling Electric Machine”, aiming to collect novel publications that push the state-of-the art towards optimal performance for the electric machine/drive system. Seventeen papers have been published in this Special Issue. The published papers focus on several aspects of the electric machine/drive system with respect to the mathematical modelling. Novel optimization methods, control approaches, and comparative analysis for electric drive system based on various electric machines were discussed in the published papers. 2022-01-11T13:52:37Z 2022-01-11T13:52:37Z 2021 book ONIX_20220111_9783036526447_945 9783036526447 9783036526454 https://directory.doabooks.org/handle/20.500.12854/77113 eng image/jpeg Attribution 4.0 International https://mdpi.com/books/pdfview/book/4732 https://mdpi.com/books/pdfview/book/4732 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-0365-2645-4 10.3390/books978-3-0365-2645-4 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783036526447 9783036526454 300 Basel, Switzerland open access
spellingShingle demagnetization
electric machine
flux reversal machine
high-speed electrical machine
high-speed electrical motor
Nelder–Mead method
optimal design
switched reluctance motor
direct instantaneous torque control
numerical analysis
optimization
current angle
design of electric motors
flux-barriers
synchronous reluctance motor
torque ripple
induction motor
model predictive
sensorless
high performance
switched reluctance machine
NSGA-II optimization
finite element analysis
direct-drive
electric machine analysis computing
interior permanent magnet machine
mathematical model
optimal-design
permanent magnet flux-switching machine
wind generator
doubly fed induction generator
DC-link voltage regulation
second-order sliding mode control
extended state observer
fuzzy gain scheduling
advanced metaheuristics
MO-Jaya optimization
centrifugal pump
energy efficiency
parallel pumps
throttling
variable speed pump
synchronous homopolar machine
synchronous homopolar motor
traction drives
traction motor
high-harmonic injection
brushless field excitation
wound field synchronous machines
Axial flux permanent magnet machine
3D FEA
Genetic algorithm
hexagonal-shaped PMs
PM overhang
brushless topology
third harmonic flux
dc offset
direct-on-line permanent magnet synchronous motor
direct-on-line synchronous reluctance motor
permanent magnet motor
reactive power compensation
carbon dioxide emissions
climate change mitigation
electric motors
energy conversion
energy efficiency class
energy policy and regulation
energy saving
sustainable utilization of resources
synchronous motor
adaptive control
MTPA control
parameter variation
constraints design
mining dump truck
traction drive
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
Mathematical Approaches to Modeling, Optimally Designing, and Controlling Electric Machine
title Mathematical Approaches to Modeling, Optimally Designing, and Controlling Electric Machine
title_full Mathematical Approaches to Modeling, Optimally Designing, and Controlling Electric Machine
title_fullStr Mathematical Approaches to Modeling, Optimally Designing, and Controlling Electric Machine
title_full_unstemmed Mathematical Approaches to Modeling, Optimally Designing, and Controlling Electric Machine
title_short Mathematical Approaches to Modeling, Optimally Designing, and Controlling Electric Machine
title_sort mathematical approaches to modeling optimally designing and controlling electric machine
topic demagnetization
electric machine
flux reversal machine
high-speed electrical machine
high-speed electrical motor
Nelder–Mead method
optimal design
switched reluctance motor
direct instantaneous torque control
numerical analysis
optimization
current angle
design of electric motors
flux-barriers
synchronous reluctance motor
torque ripple
induction motor
model predictive
sensorless
high performance
switched reluctance machine
NSGA-II optimization
finite element analysis
direct-drive
electric machine analysis computing
interior permanent magnet machine
mathematical model
optimal-design
permanent magnet flux-switching machine
wind generator
doubly fed induction generator
DC-link voltage regulation
second-order sliding mode control
extended state observer
fuzzy gain scheduling
advanced metaheuristics
MO-Jaya optimization
centrifugal pump
energy efficiency
parallel pumps
throttling
variable speed pump
synchronous homopolar machine
synchronous homopolar motor
traction drives
traction motor
high-harmonic injection
brushless field excitation
wound field synchronous machines
Axial flux permanent magnet machine
3D FEA
Genetic algorithm
hexagonal-shaped PMs
PM overhang
brushless topology
third harmonic flux
dc offset
direct-on-line permanent magnet synchronous motor
direct-on-line synchronous reluctance motor
permanent magnet motor
reactive power compensation
carbon dioxide emissions
climate change mitigation
electric motors
energy conversion
energy efficiency class
energy policy and regulation
energy saving
sustainable utilization of resources
synchronous motor
adaptive control
MTPA control
parameter variation
constraints design
mining dump truck
traction drive
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
topic_facet demagnetization
electric machine
flux reversal machine
high-speed electrical machine
high-speed electrical motor
Nelder–Mead method
optimal design
switched reluctance motor
direct instantaneous torque control
numerical analysis
optimization
current angle
design of electric motors
flux-barriers
synchronous reluctance motor
torque ripple
induction motor
model predictive
sensorless
high performance
switched reluctance machine
NSGA-II optimization
finite element analysis
direct-drive
electric machine analysis computing
interior permanent magnet machine
mathematical model
optimal-design
permanent magnet flux-switching machine
wind generator
doubly fed induction generator
DC-link voltage regulation
second-order sliding mode control
extended state observer
fuzzy gain scheduling
advanced metaheuristics
MO-Jaya optimization
centrifugal pump
energy efficiency
parallel pumps
throttling
variable speed pump
synchronous homopolar machine
synchronous homopolar motor
traction drives
traction motor
high-harmonic injection
brushless field excitation
wound field synchronous machines
Axial flux permanent magnet machine
3D FEA
Genetic algorithm
hexagonal-shaped PMs
PM overhang
brushless topology
third harmonic flux
dc offset
direct-on-line permanent magnet synchronous motor
direct-on-line synchronous reluctance motor
permanent magnet motor
reactive power compensation
carbon dioxide emissions
climate change mitigation
electric motors
energy conversion
energy efficiency class
energy policy and regulation
energy saving
sustainable utilization of resources
synchronous motor
adaptive control
MTPA control
parameter variation
constraints design
mining dump truck
traction drive
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
url ONIX_20220111_9783036526447_945