Dmitry Svechkarenko scite author profile

Dmitry Svechkarenko

5Publications

43Citation Statements Received

107Citation Statements Given

How they've been cited

How they cite others

107

Affiliations

ABB (Sweden), KTH Royal Institute of Technology, ABB (Switzerland)

Publications

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Prediction of 3-D High-Frequency Eddy Current Loss in Rotor Magnets of SPM Machines

et al. 2016

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--This paper proposes a computationally efficient method, for accurate prediction of 3-dimensional (3D) high frequency eddy current loss in the rotor magnets of surface mounted permanent magnet machines employing the imaging method. 2D finite element analysis (FEA) is used to generate the information on radial and tangential 2D magnetic field variations (eddy current sources) within the magnet. The diffusion of eddy current sources along the axial plane of the magnet computed analytically is incorporated in the imaging method to establish the 3D eddy current source variations within the magnet. The modified method is validated with results from 3D time-stepped finite element analysis (FEA) for an 8-pole, 18-slot permanent magnet machine, evaluating its magnet loss considering axial and circumferential segmentation.Index Terms-Eddy current, finite element, permanent magnet machines.

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Computationally efficient 3D analytical magnet loss prediction in surface mounted permanent magnet machines

Nair

Chen

Wang

et al. 2017

IET Electric Power Applications

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This study proposes a computationally efficient analytical method, for accurate prediction of three-dimensional (3D) eddy current loss in the rotor magnets of surface mounted permanent magnet (SPM) machines considering slotting effect. Subdomain model incorporating stator tooth tips is employed to generate the information on radial and tangential time-derivatives of 2D magnetic field (eddy current sources) within the magnet. The distribution of the eddy current sources in 3D is established for the magnets by applying the eddy current boundary conditions and the Coulomb gauge imposed on the current vector potential. The 3D eddy current distributions in magnets are derived analytically by employing the method of variable separation and the total eddy current loss in the magnets are subsequently established. The method is validated by 3D time-stepped finite element analysis for 18-slot, 8-pole and 12-slot, 8-pole permanent magnet machines. The eddy current loss variations in the rotor magnets with axial and circumferential number of segmentations are studied. The reduction of magnet eddy current loss is investigated with respect to harmonic wavelength of the source components to suggest a suitable segmentation for the rotor magnets in SPM machines.

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Parametric study of a transverse flux wind generator at no-load using three-dimensional finite element analysis

Svechkarenko

Soulard

Sadarangani

2009

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This paper deals with the three-dimensional static and dynamic finite element analysis of a transverse flux generator at no-load conditions used in offshore wind turbines. Two transverse flux topologies, namely the basic topology and that utilizing iron bridges are analyzed. The parametric study with respect to the flux linkage and poleto-pole flux leakage is conducted for various combinations of dimensions in static finite element analysis. The magnitudes and waveforms of the flux linkage and the induced emf obtained in the dynamic finite element simulations are compared with the analytical and static simulation results.Index Terms-finite element analysis, offshore wind turbines, permanent magnet, transverse flux generator.

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Performance evaluation of a novel transverse flux generator with 3D finite element analysis

Svechkarenko

Soulard

Sadarangani

2009

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Transverse Flux Machines for Sustainable Development - Road Transportation and Power Generation

Svechkarenko

Cosic

Soulard

et al. 2007

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