Adjoint variable method for time‐harmonic Maxwell equations

Durand, Stéphane; Cimrák, Ivan; Sergeant, Peter

doi:10.1108/03321640910969458

Cited by 8 publications

(9 citation statements)

References 10 publications

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“…Despite the formulation presented here seems to have been already analyzed by Durand et al (2009), their formulation contains an additional gauge condition.…”

Section: Discussionmentioning

confidence: 89%

Vector potential formulation of a quasi-static EM induction problem: existence, uniqueness and stability of the weak solution

2011

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We deal with the electromagnetic induction in a conductor with 3D distribution of electric conductivity in quasi-static approximation with the focus on theoretical aspects related to the solvability of this problem. We formulate the initial, boundary-value problem of electromagnetic induction in terms of a magnetic vector potential only, first in differential and then in integral forms. We prove that the problem is well posed in the Hadamard sense, that a solution exists, is unique and continuously dependent on data. The fact that no electric scalar potential is employed in the formulation and no gauge condition is imposed on the magnetic vector potential makes the formulation attractive for numerical implementations.

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“…Despite the formulation presented here seems to have been already analyzed by Durand et al (2009), their formulation contains an additional gauge condition.…”

Section: Discussionmentioning

confidence: 89%

Vector potential formulation of a quasi-static EM induction problem: existence, uniqueness and stability of the weak solution

2011

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“…A similar approach of an adjoint variable has been used in many applications [19][20][21][22][23][24]. We choose this method because of its computational cost reduction in comparison with the conventional method of perturbations or with the method of sensitivity equation.…”

Section: Inverse Problemmentioning

confidence: 99%

Level set method for the inverse elliptic problem in nonlinear electromagnetism

Cimrák¹,

Keer²

2010

Journal of Computational Physics

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“…In this work, the adjoint variable method (AVM) (see e.g. Durand et al, 2009;Igarashi and Watanabe, 2010) has been used for the calculation of the speed of the zero-level set function.…”

Section: Multi-level Set Approachmentioning

confidence: 99%

Mitigation of the cogging torque and loss minimization in a permanent magnet machine using shape and topology optimization

Putek

2016

Engineering Computations

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Article information:To cite this document: Piotr Adam Putek , (2016),"Mitigation of the cogging torque and loss minimization in a permanent magnet machine using shape and topology optimization", Engineering Computations, Vol. 33 Iss 3 pp. 831 -854 Permanent link to this document: http://dx. AbstractPurpose -The purpose of this paper is to present the topology optimization method to design the rotor and the tooth base in the stator of the permanent magnet (PM) excited machine with the improved high-speed features. The topological and shape sensitivity through the multi-level set method (MLSM) have been used to attain an innovative design of both the rotor and stator made of different materials. Design/methodology/approach -This framework is based on the application of the topological and the shape derivative, obtained by incorporating the adjoint variable method into the MLSM for the magnetoquasistatic system. The representation of the shape and their evolution during the iterative optimization process are obtained by the MLSM. Findings -To find the optimal configuration of a PM machine, the stator and rotor poles were simultaneously optimized by redistributing the iron and the magnet material over the design domains. In this way, it was possible to obtain an innovative design which allows to reduce mechanical vibration and the acoustic noise caused by the cogging torque, while taking the back electromotive force into account. Originality/value -The novelty of the proposed method is to apply the modified multi-level set algorithm with the total variation to the magnetoquasistatic optimization problem. Given the eddy currents phenomenon in the model of a PM machine, it was possible not only to optimize the structure of a PM machine but also to analyze electromagnetic losses distribution.

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Adjoint variable method for time‐harmonic Maxwell equations

Cited by 8 publications

References 10 publications

Vector potential formulation of a quasi-static EM induction problem: existence, uniqueness and stability of the weak solution

Vector potential formulation of a quasi-static EM induction problem: existence, uniqueness and stability of the weak solution

Level set method for the inverse elliptic problem in nonlinear electromagnetism

Mitigation of the cogging torque and loss minimization in a permanent magnet machine using shape and topology optimization

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