Cost modeling for the GWh-scale production of modern lithium-ion battery cells

Maximilian Lechner; Anna Kollenda; Konrad Bendzuck; Julian K. Burmeister; Kashfia Mahin; Josef Keilhofer; Lukas Kemmer; Maximilian J. Blaschke; Gunther Friedl; Ruediger Daub; Arno Kwade

doi:10.1038/s44172-024-00306-0

Communications Engineering (Nov 2024)

Cost modeling for the GWh-scale production of modern lithium-ion battery cells

Maximilian Lechner,
Anna Kollenda,
Konrad Bendzuck,
Julian K. Burmeister,
Kashfia Mahin,
Josef Keilhofer,
Lukas Kemmer,
Maximilian J. Blaschke,
Gunther Friedl,
Ruediger Daub,
Arno Kwade

Affiliations

Maximilian Lechner: Institute for Machine Tools and Industrial Management (iwb), TUM School of Engineering and Design, Technical University of Munich (TUM)
Anna Kollenda: Institute for Machine Tools and Industrial Management (iwb), TUM School of Engineering and Design, Technical University of Munich (TUM)
Konrad Bendzuck: Institute for Particle Technology & Battery LabFactory, Technical University Braunschweig
Julian K. Burmeister: Institute for Particle Technology & Battery LabFactory, Technical University Braunschweig
Kashfia Mahin: Institute for Particle Technology & Battery LabFactory, Technical University Braunschweig
Josef Keilhofer: Institute for Machine Tools and Industrial Management (iwb), TUM School of Engineering and Design, Technical University of Munich (TUM)
Lukas Kemmer: Chair of Management Accounting, Technical University of Munich (TUM)
Maximilian J. Blaschke: Chair of Management Accounting, Technical University of Munich (TUM)
Gunther Friedl: Chair of Management Accounting, Technical University of Munich (TUM)
Ruediger Daub: Institute for Machine Tools and Industrial Management (iwb), TUM School of Engineering and Design, Technical University of Munich (TUM)
Arno Kwade: Institute for Particle Technology & Battery LabFactory, Technical University Braunschweig

DOI: https://doi.org/10.1038/s44172-024-00306-0
Journal volume & issue: Vol. 3, no. 1
pp. 1 – 11

Abstract

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Abstract Battery production cost models are critical for evaluating the cost competitiveness of different cell geometries, chemistries, and production processes. To address this need, we present a detailed bottom-up approach for calculating the full cost, marginal cost, and levelized cost of various battery production methods. Our approach ensures comparability across research fields and industries, reflecting capital and imputed interest costs. We showcase the model with case studies of a prismatic PHEV2 hardcase cell and a cylindrical 4680 cell in four different chemistries. Our publicly available browser-based modular tool incorporates up-to-date parameters derived from literature and expert interviews. This work enables researchers to quickly assess the production cost implications of new battery production processes and technologies, ultimately advancing the goal of reducing the cost of electrified mobility.

Published in Communications Engineering

ISSN: 2731-3395 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Technology: Engineering (General). Civil engineering (General)
Website: https://www.nature.com/commseng/

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