Digital twin enabled transition towards the smart electric vehicle charging infrastructure: A review
This study presents a smart EV charging infrastructure framework composed of a green power generation network, an energy storage network, and a charging network.
Consultants in Sustainable Transportation Solutions, Digital Twin Researchers, Electric Vehicle Researchers, Policy Makers in Energy and Transportation, Smart Grid Infrastructure Developers
Digital Twin, Digital Twin Standardisation, Electric Vehicles, Energy System, Public Charging Infrastructure, Smart Charging Infrastructure, Smart Charging Station Architecture, Transportation System
Link:
sciencedirect.com
Electric Vehicle Design, Modelling and Optimization
In this paper a new design model of the electric vehicle is presented. This model is based on the combination of Modelica with ModelCenter. Modelica has been used to model and simulate the electric vehicle and ModelCenter has been used to optimize the design variables.
Automotive Designers, Automotive Engineers, Electric Vehicle Manufacturers, Environmental Policy Makers, Researchers in Automotive Technology, Simulation and Modelling Professionals
Link:
researchgate.net
Electric Vehicles from Life Cycle and Circular Economy Perspectives
This document, by the European Environment Agency (EEA), is a comprehensive report that examines the environmental impacts of battery electric vehicles (BEVs) throughout their entire life cycle, from raw material extraction to end-of-life processing.
Automotive Suppliers, Battery Manufacturers, Electric Vehicle Manufacturers, Electric Vehicle Owners, Environmental Advocacy Groups, Environmental Organizations, Environmental Protection Agencies, European Commission, Financial Analysts, Grid Operators, International Energy Organizations, National and Local Government, Non-Governmental Organizations, Public Transportation Agencies, Recycling Industry, Renewable Energy Providers, Research Centres, Sustainability Investors, United Nations, Universities, Utility Companies, Waste Management Industry
Air Pollution, Battery Electric Vehicles, Circular Economy, Critical Raw Materials, Electric Vehicles, End-of-Life Stage, Energy Efficiency, Environmental Impact, European Environment Agency, Greenhouse Gas Emissions, Life Cycle Assessment, Production Stage, Rare Earth Elements, Raw Materials, Recycling, Renewable Energy, Reuse, Use Stage
Link:
eea.europa.eu
Electric Vehicles from Life Cycle and Circular Economy Perspectives
This document, by the European Environment Agency (EEA), is a comprehensive report that examines the environmental impacts of battery electric vehicles (BEVs) throughout their entire life cycle, from raw material extraction to end-of-life processing.
Automotive Suppliers, Battery Manufacturers, Electric Vehicle Manufacturers, Electric Vehicle Owners, Environmental Advocacy Groups, Environmental Organizations, Environmental Protection Agencies, European Commission, Financial Analysts, Grid Operators, International Energy Organizations, National and Local Government, Non-Governmental Organizations, Public Transportation Agencies, Recycling Industry, Renewable Energy Providers, Research Centres, Sustainability Investors, United Nations, Universities, Utility Companies, Waste Management Industry
Air Pollution, Battery Electric Vehicles, Circular Economy, Critical Raw Materials, Electric Vehicles, End-of-Life Stage, Energy Efficiency, Environmental Impact, European Environment Agency, Greenhouse Gas Emissions, Life Cycle Assessment, Production Stage, Rare Earth Elements, Raw Materials, Recycling, Renewable Energy, Reuse, Use Stage
Fast and Accurate Non-Linear Model for Synchronous Machines Including Core Losses
Automotive Engineers, Control System Designers, Electric Vehicle Designers, Power Electronics Researchers, Simulation and Modelling Professionals
Core Loss, E-Volve Cluster, Electric Vehicles, Lookup-Tables, POWERDRIVE, Rotor Topology, State-Space Model, Synchronous Machine
Link:
IEEE Xplore
Life Cycle Assessment of Electric Traction Machine Considering Novel Recycling Processes for Permanent Magnet Circularity
The research presented in a poster format, focuses on the environmental impacts of electric traction machines (ETM) used in the electrification of vehicle fleets.
Academic Researchers, Automobile Manufacturers, Automotive Component Manufacturers, Automotive Engineers, Circular Economy Experts, Electric Vehicle Designers, Environmental Policy Makers, Recycling and Repurposing Specialists
E-Volve Cluster, Electric Traction Machine, Electric Vehicles, End-of-Life Stage, Life Cycle Assessment, Lifecycle Analysis, MAXIMA, Permanent Magnets, Poster
Link:
Zenodo
Moving Towards a Sustainable Design of Power Converters Contributing to Zero-Emissions in the EV Use Phase and Lower Environmental Impacts in its Production: A Material Assessment with Respect to Recyclability Aspects
In the frame of the European project SCAPE, this work analyses the environmental impacts associated with key materials from parts and auxiliaries of a conventional EV power converter. The Life Cycle Assessment (LCA) methodology was used to perform the assessment.
Automotive Suppliers, Electric Vehicle Manufacturers, Electric Vehicle Owners, Energy and Resource Managers, Environmental Advocacy Groups, Environmental Organizations, Environmental Protection Agencies, Environmental Research Centres, Financial Analysts, Non-Governmental Organizations, Public Transportation Agencies, Raw Material Extractors, Recycling Industry, Sustainability Investors, Universities, Waste Management Industry
CO2 Emissions, Critical Raw Materials, E-Volve Cluster, Electric Vehicles, Electronic Components, Life Cycle Assessment, Metal Depletion, Power Converters, SCAPE
Multi-Moby – Smart solutions for safe, efficient and affordable light electric vehicles
Automotive Engineers, Consultants in Sustainable Transportation Solutions, Electric Powertrain Researchers, Electric Vehicle Drivers, Electric Vehicle Manufacturers, Electric Vehicle Market Researchers, Vehicle Safety Engineers
E-Mobility, E-Volve Cluster, Electric Vehicle Affordability, Electric Vehicles, Energy Efficiency, MULTI-MOBY, Vehicle Safety
Link:
Sciencedirect.com
Optimizing Electric Vehicle Operations for a Smart Environment: A Comprehensive Review
This review article examines the deterministic control model and centralized control model, the types of EV models, and their tabular comparison.
Electric Vehicle Manufacturers, Electric Vehicle Owners and Consumers, Energy and Utility Companies, Government and Regulatory Bodies, Researchers
Battery Technology, Charging Controllers, Charging Stations, Electric Vehicles, Plug-in Hybrid Electric Vehicle
Link:
Researchgate.net
Overview of Digital Twin Platforms for EV Applications
This paper presents an overview of different DT platforms that can be used in EV applications. A deductive comparison between model-based and data-driven DT was performed. EV main systems have been discussed regarding the usable DT platform. DT platforms used in the EV industry were addressed.
Automotive Engineers, Automotive Industry Professionals, Consultants in Sustainable Transportation Solutions, Digital Twin Researchers, Electric Vehicle Developers, Energy Management Professionals, Manufacturing Process Optimization Experts, Powertrain System Specialists, Recycling and Repurposing Specialists, Vehicle Safety Engineers
Link:
mdpi.com