0000000000815524

AUTHOR

Luca Ferraris

0000-0002-9332-5298

showing 4 related works from this author

Adoption of bonded magnets in place of sintered NdFeB: Performance and economic considerations on a small power generator

2015

Bonded magnets are giving promising results when adopted to replace expensive rare earth magnets. The possibility to “modulate” the magnetic characteristics by varying the binder percentage allows the opening of new lines of investigation and to face the problem of rare earths cost. In the paper a small power generator prototype has been equipped with bonded magnets realized in the Authors' Laboratories; it has been tested and compared with the original generator mounting NdFeB sintered magnets. FEM simulations are validated by means of experimental tests. Economic comparisons are proposed.

Generator (circuit theory)Materials scienceNeodymium magnetSintered magnetsMagnetvisual_artRare earthvisual_art.visual_art_mediumMechanical engineeringEpoxyPower (physics)Fem simulations
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Finite-element performance comparison of IPMSMs with unsymmetrical double-layer windings

2017

This paper presents a comparison of the performances between IPMSMs (Interior Permanent Magnet Synchronous Machine) with a symmetrical and with two different types of unsymmetrical windings. The aim is to demonstrate that the adoption of slightly unsymmetrical windings does not significantly affect the performances of the machines, both in terms of cogging torque and torque/load angle characteristics, providing also the advantage of a higher possibility of choice in terms of slot number/poles ratio. More in particular, an IPMSM model (named IPMSM-1) derived from a commercial geometry equipped with a symmetrical winding is analyzed by using a Finite Element Method (FEM) approach. The simulat…

Engineeringunsymmetrical windingsStatorCogging torque; FEM analysis; IPMSM; permanent magnets; unsymmetrical windings; Renewable Energy Sustainability and the Environment; Automotive Engineering; Electrical and Electronic EngineeringFEM analysisSettore ING-IND/32 - Convertitori Macchine E Azionamenti Elettrici01 natural scienceslaw.inventionHarmonic analysislaw0103 physical sciencesTorqueRenewable EnergyElectrical and Electronic Engineering010306 general physicsFEM analysi010302 applied physicsSustainability and the EnvironmentRotor (electric)business.industryRenewable Energy Sustainability and the EnvironmentElectrical engineeringCogging torquepermanent magnetsStructural engineeringCogging torqueFinite element methodIPMSMSettore ING-IND/31 - ElettrotecnicaElectromagnetic coilMagnetAutomotive Engineeringpermanent magnetunsymmetrical windingbusiness
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Energy and Network Models for the Intelligent Control of Distributed Systems

2014

This paper presents detailed energy and network models for the intelligent control of a distributed system which also comprises power generation from renewables. The two models provide interactive energy monitoring, intelligent control and power demand balancing at home, block and neighbor level. Particularly, it is here described how the energy model works and also details of how it has been validated are here given. Moreover, it is shown how the energy model simulation results are transferred to the network simulation software SynerGEE, set up by GL Noble Denton Industrial Services Ltd (UK), in order to fully perform network simulations.

EngineeringNetwork modelsbusiness.industryEnergy modelsDistributed computingEnergy distribution systemsEnergy Engineering and Power TechnologySettore ING-IND/32 - Convertitori Macchine E Azionamenti ElettriciSmart gridEnergy distribution systems; Energy models; Network models; Control and Systems Engineering; Electrical and Electronic Engineering; Energy Engineering and Power TechnologyControl and Systems EngineeringEmbedded systemenergy models network models energy distribution systemsElectrical and Electronic EngineeringbusinessIntelligent controlEnergy (signal processing)Network model
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Design optimization for the adoption of bonded magnets in PM BLDC motors

2014

The increment of the manageable power in machines where the normally adopted ferrites are replaced with bonded magnets can vary and can introduce saturation problems depending on the variations in the magnetic circuit design. The saturation of the magnetic circuit distorts the phase voltages, introducing undesired harmonics in the connection to the mains. Combined modifications of both stator poles and rotor ring of a Brushless DC motor are proposed to evaluate their impact on the increment of the manageable power and on the harmonic content. Several magnetic circuit modifications have been considered and the paper presents the results of the most reasonable solutions, obtaining significant…

EngineeringMains electricitybusiness.industryElectrical engineeringDC motorMagnetic fluxMagnetic circuitMagnetizationControl theoryBonded magnetsHarmonicsMagnetbusinessSaturation (magnetic)IECON 2014 - 40th Annual Conference of the IEEE Industrial Electronics Society
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