An overview of thermal modelling techniques for permanent magnet machines

Khalesidoost, Sina; Faiz, Jawad; Mazaheri‐Tehrani, Ehsan

doi:10.1049/smt2.12099

Cited by 17 publications

(5 citation statements)

References 142 publications

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“…Figures 7(a)-7(c) show curves of field current for the period of short circuit simulation is at filed, torque and input voltage perturbations using machine parameters in Table 1. Field current under a three-phase sudden short-circuit is described by (9) [27].…”

Section: Resultsmentioning

confidence: 99%

“…The damper winding that are placed near air-gap present flux linking damper circuits whose value is nearly equal to flux linking armature. This assumption accelerates satisfactory outcomes for many stability studies particularly individuals of network side [9]- [15]. Nevertheless, once it tackles to field current explores, there is a substantial error.…”

Section: Introductionmentioning

confidence: 99%

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Higher order model of synchronous generator

Kadiman

Yuliani

2023

IJPEDS

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<span lang="EN-US">Synchronous generator conventional model accurately describes only the stator circuit. Concerning the transients for rotor quantities, for example rotor voltage, rotor current, and rotor magneto-motor force, conceivable predetermined with acceptable accuracy if calculations are created on equivalent model properly on consideration of field and damper together with stator circuits. Unfortunately, it was recognized that simulated responses using conventional model with calculated machine parameters often did not match well with actual measured responses, particularly in the quantity’s rotor winding. For this intention, the newly method to producing the rotor circuit is to model it as well as the lines that conventionally viewed as the partition of current paths from the physical construction. Besides the physical field and damper circuits, a third circuit for the eddy currents induced in the pole surface could also be added. The all conclusions prove the correctness of synchronous generator model.</span>

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Higher order model of synchronous generator

Kadiman

Yuliani

2023

IJPEDS

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“…Because the actual problem is replaced by a simpler problem, this solution is not an exact solution, but an approximate solution. Because most practical problems are difficult to get accurate solutions, and the finite element method not only has high calculation accuracy, but also can adapt to various complex shapes, it has become an effective engineering analysis method [10].…”

Section: Finite Element Analysismentioning

confidence: 99%

Overview of Numerical Analysis and Optimization Methods for Eddy Current Retarders

Liao¹

2022

AJST

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Aiming at the analysis and optimization of eddy current retarder, this paper reviews the development of numerical analysis based on finite element method. The characteristics of finite element method and the application of numerical method in the analysis of eddy current retarder are briefly introduced. In terms of algorithm, the different applications of multi-objective genetic algorithm, robustness principle, Taguchi algorithm and Rogowski method in the analysis of important parameters of eddy current retarder are introduced and summarized; In terms of software, the application of commercial software in magnetic field and temperature field is briefly introduced; In industrial practice, the development of numerical simulation methods in the research of braking torque is introduced. On the basis of reviewing the numerical analysis and optimization methods of eddy current retarder, the future of its digital design is prospected.

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“…Hybrid solutions with finite element method (FEM) and LPTN combine accuracy with low computational effort. FEM-assisted LPTN use FEM to calibrate or determine LPTN parameters [4]. Another approach involves using FEM to simulate a cross section of the active region and including end-windings or plates by modifying boundary conditions within the FEM [5].…”

Section: Introductionmentioning

confidence: 99%

Enhancing thermal modelling of electric machines: steady-state verification of a novel methodology

Nonneman,

T’Jollyn,

De Paepe

2024

J. Phys.: Conf. Ser.

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The increasing power density of electric machines for electric vehicles necessitates accurate thermal analysis in design through simulations with computation times not exceeding one minute. Existing thermal models are either accurate and complex while requiring large computation times or they are fast but lack accuracy. To address these challenges, a novel hybrid modelling methodology is proposed, combining 3D lumped parameter thermal networks with thermal resistances extracted from 2D finite element models (FEM) to reduce computation demands while preserving accuracy. Verification of the modelling methodology against 3D FEM in OpenFOAM shows key component temperature deviations of less than 0.67 °C comparable to the 3D FEM uncertainty of 0.39 °C. The computation time is 18.3 s compared to 44 h for 3D FEM. This highlights the time-efficiency of the proposed methodology while maintaining accuracy for key component temperatures.

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An overview of thermal modelling techniques for permanent magnet machines

Cited by 17 publications

References 142 publications

Higher order model of synchronous generator

Higher order model of synchronous generator

Overview of Numerical Analysis and Optimization Methods for Eddy Current Retarders

Enhancing thermal modelling of electric machines: steady-state verification of a novel methodology

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