Search results for "Hysteresis effect"

showing 3 items of 3 documents

Li-ion Battery Modeling and State of Charge Estimation Method Including the Hysteresis Effect

2019

In this paper, a new approach to modeling the hysteresis phenomenon of the open circuit voltage (OCV) of lithium-ion batteries and estimating the battery state of charge (SoC) is presented. A characterization procedure is proposed to identify the battery model parameters, in particular, those related to the hysteresis phenomenon and the transition between charging and discharging conditions. A linearization method is used to obtain a suitable trade-off between the model accuracy and a low computational cost, in order to allow the implementation of SoC estimation on common hardware platforms. The proposed characterization procedure and the model effectiveness for SoC estimation are experime…

Battery (electricity)Energy storage systemsComputer Networks and CommunicationsComputer scienceEnergy storage system020209 energylcsh:TK7800-8360Battery modeling02 engineering and technologyEnergy storageControl theoryLinearizationSoC estimation0202 electrical engineering electronic engineering information engineeringCoulombElectrical and Electronic EngineeringOpen-circuit voltagelcsh:Electronics020208 electrical & electronic engineeringHysteresisTransducerState of chargeHardware and ArchitectureControl and Systems EngineeringHysteresis effectSignal ProcessingSettore ING-INF/07 - Misure Elettriche E ElettronicheElectronics
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The impact of thermophysical properties and hysteresis effects on the energy performance simulation of PCM wallboards: Experimental studies, modellin…

2020

Abstract This paper presents a combined experimental and numerical procedure, developed to test the thermophysical behaviour of a real scale PCM wallboard, aiming at providing reliable data for the validation of building energy performance simulation tools. Data obtained from two experimental tests, conducted on real building elements integrating PCM undergoing complete and incomplete phase change, are considered for assessing the impact of thermal properties and hysteresis. A comprehensive comparative numerical analysis, performed by means of an in-house developed simulation tool, called DETECt, is carried out to investigate the reliability of several modelling and simulation approaches av…

Phase transitionMaterials scienceScale (ratio)Renewable Energy Sustainability and the Environment020209 energyNumerical analysisNuclear engineeringEnergy performanceExperimental verification02 engineering and technologyTemperature dependent specific heatHeat capacityBuilding energy performance simulation modelHysteresisHysteresis effectThermal0202 electrical engineering electronic engineering information engineeringReliability (statistics)Phase change materialRenewable and Sustainable Energy Reviews
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Cyanide-bridged Fe(III)–Co(II) bis double zigzag chains with a slow relaxation of the magnetisation

2003

Reaction of [FeIII(bipy)(CN)4]¯ with fully solvated MII cations [M = Co (1) and Mn (2)] produces the isostructural bis double zigzag chains [[FeIII(bipy)(CN)4]2MII(H2O)]·MeCN·1/2H2O; 1 exhibits intrachain ferromagnetic and interchain antiferromagnetic couplings, slow magnetic relaxation and hysteresis effects. Luminita Marilena, Toma, Luminita.Toma@uv.es ; Lescouezec, Alain Francois Rodri, Alain.Lescouezec@uv.es ; Lloret Pastor, Francisco, Francisco.Lloret@uv.es ; Julve Olcina, Miguel, Miguel.Julve@uv.es

Cyanide-bridged Fe(III)–Co(II)CyanideUNESCO::QUÍMICA:QUÍMICA [UNESCO]Catalysischemistry.chemical_compoundMagnetizationMaterials ChemistryAntiferromagnetismIsostructuralHysteresis effectsCondensed matter physicsUNESCO::QUÍMICA::Química inorgánicaRelaxation (NMR)Metals and AlloysGeneral ChemistryCyanide-bridged Fe(III)–Co(II) ; Slow relaxation ; Ferromagnetic ; Antiferromagnetic ; Hysteresis effectsAntiferromagnetic:QUÍMICA::Química inorgánica [UNESCO]Surfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsCrystallographyHysteresischemistryZigzagFerromagnetismFerromagneticCeramics and CompositesSlow relaxation
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