Integrated Computational Life Cycle Engineering for Traction Batteries [electronic resource] / by Felipe Cerdas.

By:

Cerdas, Felipe [author.]

Contributor(s):

SpringerLink (Online service)

Material type: Text

TextLanguage: İngilizce Series: Sustainable Production, Life Cycle Engineering and ManagementPublisher: Cham : Springer International Publishing : Imprint: Springer, 2022Edition: 1st ed. 2022Description: 1 online resourceContent type:

text

Media type:

computer

Carrier type:

online resource

ISBN:

9783030829346

Subject(s):

LOC classification:

T55.4

Online resources:

Springer eBooks Online access link to the resource

Contents:

Background and context -- LCE and electromobility -- State of Research -- Concept Development -- Exemplary application -- Summary, critical review and outlook. .

Summary: 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.

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Holdings
Item type	Current library	Home library	Collection	Call number	Copy number	Status	Notes	Date due	Barcode
E-Book	Merkez Kütüphane	Merkez Kütüphane	E-Kitap Koleksiyonu	T55.4EBK (Browse shelf(Opens below))	1	Geçerli değil-e-Kitap / Not applicable-e-Book			EBK03169

Background and context -- LCE and electromobility -- State of Research -- Concept Development -- Exemplary application -- Summary, critical review and outlook. .

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.

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