Search results for " electric vehicles."

showing 5 items of 25 documents

Life Cycle Assessment of repurposed electric vehicle batteries: an adapted method based on modelling energy flows

2018

Abstract After their first use in electric vehicles (EVs), the residual capacity of traction batteries can make them valuable in other applications. Although reusing EV batteries remains an undeveloped market, second-use applications of EV batteries are in line with circular economy principles and the waste management hierarchy. Although substantial environmental benefits are expected from reusing traction batteries, further efforts are needed in data collection, modelling the life-cycle stages and calculating impact indicators to propose a harmonized and adapted life-cycle assessment (LCA) method. To properly assess the environmental benefits and drawbacks of using repurposed EV batteries …

business.product_categoryComputer science020209 energyEnergy Engineering and Power TechnologyReuse02 engineering and technology010501 environmental sciencesReuseBattery second-use; Electric Vehicles (EVs); Environmental impact; Life Cycle Assessment (LCA); Repurposing; Reuse; Renewable Energy Sustainability and the Environment; Energy Engineering and Power Technology; Electrical and Electronic Engineering01 natural sciencesEnvironmental impactElectric vehicle0202 electrical engineering electronic engineering information engineeringBattery second-useEnvironmental impact assessmentRenewable EnergyElectrical and Electronic EngineeringLife-cycle assessmentRepurposing0105 earth and related environmental sciencesData collectionSettore ING-IND/11 - Fisica Tecnica AmbientaleSustainability and the EnvironmentRenewable Energy Sustainability and the EnvironmentCircular economyPhotovoltaic systemLife Cycle Assessment (LCA)Reliability engineeringEnvironmental impactLife Cycle Assessment (LCA)Battery second-useReuseRepurposingElectric Vehicles (EVs)businessRepurposingElectric Vehicles (EVs)
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Hybrid Propulsion Efficiency Increment through Exhaust Energy Recovery—Part 2: Numerical Simulation Results

2023

The efficiency of hybrid electric vehicles may be substantially increased if the energy of exhaust gases, which do not complete the expansion inside the cylinder of the internal combustion engine, is efficiently recovered using a properly designed turbo-generator and employed for vehicle propulsion. Previous studies, carried out by the same authors of this work, showed a potential hybrid vehicle fuel efficiency increment up to 15% employing a 20 kW turbine on a 100 HP-rated power thermal unit. The innovative thermal unit proposed here is composed of a supercharged engine endowed with a properly designed turbo-generator, which comprises two fundamental elements: an exhaust gas turbine expres…

gas turbineControl and OptimizationSettore ING-IND/08 - Macchine A FluidoRenewable Energy Sustainability and the Environmentradial turbineEnergy Engineering and Power TechnologyBuilding and Constructionhybrid electric vehicles (HEVs)Electrical and Electronic Engineeringturbo-generatorEngineering (miscellaneous)Energy (miscellaneous)turbine geometry
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OPTIMAL OPERATION OF POWER-SPLIT HYBRID ELECTRIC POWERTRAIN: COMPARISON BETWEEN TWO PERFORMANCE INDICES

2022

Among all the current environmentally-friendly ground vehicles proposed to reduce fuel consumption and emissions, power-split hybrid electric vehicles represent one of the most promising solutions. Their operation is based on the cooperation of the thermal engine and the electric unit enabled by mechanical transmissions consisting of planetary and ordinary gear sets. However, implementing proper energy management strategies to realise the best powertrain operations is crucial to maximise the environmental gain without compromising performance and drivability. For this purpose, an initial comprehensive analysis of the powertrain response is required. In this respect, this paper relies on a u…

hybrid electric vehicles power-split powertrain PS-CVT analysis model-based optimisation SDG13.Settore ING-IND/13 - Meccanica Applicata Alle Macchine
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Lithium-ion batteries for electric vehicles: combining Environmental and Social Life Cycle Assessments

2018

Electric vehicles (xEV) are a key low carbon technology for mobility. Although xEV have no tailpipe emissions, the production of traction batteries leads to environmental and social burdens. In this context, authors assess the environmental and social impacts of a cell of Lithium ion traction battery in order to identify the most relevant aspects and the potential added value of performing both the assessments. Results show the relevance of the resources in terms of both environmental and social impacts. Moreover, the social assessment results pointed out the relevance of the geographical boundaries, often overlooked for in the environmental analysis. The combination of both the assessment …

social assessmentenvironmental assessmentlife cycle assessment (LCA)Li-ion batteries; electric vehicles; environmental assessment; social assessment; life cycle assessment (LCA)Li-ion batterieselectric vehiclesLife cycle assessment Social Life Cycle Assessment Storage Battery
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Contribution to thermal behaviour study of lithium-ion battery for electric and hybrid electric vehicle

2014

The main objectives of this study are to provide the essential information on the thermal behaviour of the battery cells for automotive purpose especially for EVs and HEVs through experimental work in order to develop an effective 3D electro-thermal model for lithium ion battery cells and pack. The experimental study is focusing on the distribution of temperature at various points of the battery cell surface, impact of different constant discharge rates, and also the importance of cooling system on the battery temperature behaviour. This thesis highlights the battery cell temperature under abuse discharge condition and the impact of stacking the battery cells inside the battery pack. Impact…

Étude expérimentalElectro-thermal modelExperimental study[ SPI.MECA ] Engineering Sciences [physics]/Mechanics [physics.med-ph]Batterie lithium-ionVélocimétrie par imagerie de particules (PIV)Thermal behaviourModèle électro-thermique[SPI.MECA] Engineering Sciences [physics]/Mechanics [physics.med-ph]3D CFD modelComportement thermiqueElectric and hybrid electric vehiclesModèle CFD 3DLithium-ion batteryVéhicules électriques et hybridesParticle image velocimetry (PIV)
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