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Integrated Computational Life Cycle Engineering for Traction Batteries

  • Book
  • © 2022

Overview

Authors:
  1. Felipe Cerdas

    1. Institute of Machine Tools and Production Technology, Technische Universität Braunschweig, Braunschweig, Germany

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  • Framework for the modelling of environment. impacts of complex product systems based on multidiscipl. coupled models
  • Contains in depth info for the modelling and understanding of the life cycle environmental impacts of traction batteries
  • Presents a comprehensive case study of the appl. of the concept considering a high technological and spatial variability

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Table of contents (6 chapters)

  1. Front Matter

    Pages i-xvi
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  2. Background and Context

    • Felipe Cerdas
    Pages 1-10

  3. LCE and Electromobility

    • Felipe Cerdas
    Pages 11-55

  4. State of Research—Review on LCE Modelling and Assessment Approaches for Electromobility

    • Felipe Cerdas
    Pages 57-85

  5. Concept Development: Integrated Computational Life Cycle Engineering for Traction Batteries

    • Felipe Cerdas
    Pages 87-128

  6. Exemplary Application: Analysis of Variability in the LCE of Batteries for Electric Vehicles

    • Felipe Cerdas
    Pages 129-161

  7. Summary, Critical Review and Outlook

    • Felipe Cerdas
    Pages 163-170

  8. Back Matter

    Pages 171-192
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Keywords

About this book

The environmental burden caused by private transportation represents a significant challenge towards sustainability. Electric vehicles are considered a key technology to reduce the environmental impact caused by the mobility sector. However, the global adoption of electromobility implies shift and diversification of the environmental impacts caused by the transportation sector mainly driven by the production of the battery system. Modeling the life cycle environmental impacts of traction batteries is a time demanding and interdisciplinary task as it involves a high variability and requires an in-depth knowledge of the product system under analysis. To face these challenges, an Integrated Computational Life Cycle Engineering ICLCE framework for EVs has been developed. The ICLCE framework described aims at supporting fast and comprehensive modelling of complex foreground systems in the electromobility field and their interaction with diverse backgrounds and partial contexts.

Authors and Affiliations

  • Institute of Machine Tools and Production Technology, Technische Universität Braunschweig, Braunschweig, Germany

    Felipe Cerdas

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