Resource-Efficient Process Chains for the Production of High-Performance Powertrain Components in the Automotive Industry

Berend Denkena; Benjamin Bergmann; Marcel Wichmann; Miriam Handrup; Daniel Katzsch; Philipp Pillkahn; Leon Reuter; Christopher Schmidt; Frederik Stelljes

doi:10.1007/978-3-031-28839-5_46

Resource-Efficient Process Chains for the Production of High-Performance Powertrain Components in the Automotive Industry

Berend Denkena, Benjamin Bergmann, Marcel Wichmann, Miriam Handrup, Daniel Katzsch, Philipp Pillkahn^*, Leon Reuter, Christopher Schmidt, Frederik Stelljes

^*Corresponding author for this work

Research output: Chapter in book/report/conference proceeding › Conference contribution › Research › peer review

Abstract

This paper focuses on process chains for power train components of passenger cars and heavy duty vehicles. In the project “Powertrain 2025” particular attention is being paid to increase the resource efficiency of the manufacturing process chains and reduce energy demand during service life. In detail cylinder liners are equipped with an adapted geometry and topography which reduces friction losses. Process chains for chassis components are investigated and optimized in order to increase the resource efficiency during manufacturing, service life and maintenance. In addition, process chains for the manufacturing of drive shafts are adjusted. By eliminating hard machining, energy is saved and friction losses are reduced by laser machining of microstructures. Furthermore, micro dimples are applied in vane pumps, which leads to a tribological improvement and thus enhances their friction behaviour. Moreover, a system architecture for process planning is developed and ecologically optimized process parameters are calculated. For a final consideration, a calculation software is developed which enables to calculate the main energy consumption of the manufacturing processes and the carbon footprint for the expected service life. A weight reduction of the powertrain components of 4.5 kg per vehicle and a potential annual energy saving of 13,073 MWh is obtained.

Original language	English
Title of host publication	Manufacturing Driving Circular Economy - Proceedings of the 18th Global Conference on Sustainable Manufacturing
Editors	Holger Kohl, Günther Seliger, Franz Dietrich
Publisher	Springer Science and Business Media Deutschland GmbH
Pages	410-418
Number of pages	9
ISBN (Electronic)	978-3-031-28839-5
ISBN (Print)	9783031288388
DOIs	https://doi.org/10.1007/978-3-031-28839-5_46
Publication status	Published - 26 Apr 2023
Event	18th Global Conference on Sustainable Manufacturing, GCSM 2022 - Berlin, Germany Duration: 5 Oct 2022 → 7 Oct 2022

Publication series

Name	Lecture Notes in Mechanical Engineering
ISSN (Print)	2195-4356
ISSN (Electronic)	2195-4364

Conference

Conference	18th Global Conference on Sustainable Manufacturing, GCSM 2022
Country/Territory	Germany
City	Berlin
Period	5 Oct 2022 → 7 Oct 2022

UN Sustainable Development Goals (SDGs)

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy
SDG 8 Decent Work and Economic Growth
SDG 12 Responsible Consumption and Production

Keywords

Automotive Industry
Process Chains
Resource Efficiency

ASJC Scopus subject areas

Automotive Engineering
Aerospace Engineering
Mechanical Engineering
Fluid Flow and Transfer Processes

Access to Document

10.1007/978-3-031-28839-5_46Licence: CC BY 4.0

Cite this

Denkena, B., Bergmann, B., Wichmann, M., Handrup, M., Katzsch, D., Pillkahn, P., Reuter, L., Schmidt, C., & Stelljes, F. (2023). Resource-Efficient Process Chains for the Production of High-Performance Powertrain Components in the Automotive Industry. In H. Kohl, G. Seliger, & F. Dietrich (Eds.), Manufacturing Driving Circular Economy - Proceedings of the 18th Global Conference on Sustainable Manufacturing (pp. 410-418). (Lecture Notes in Mechanical Engineering). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/978-3-031-28839-5_46

Denkena, Berend ; Bergmann, Benjamin ; Wichmann, Marcel et al. / Resource-Efficient Process Chains for the Production of High-Performance Powertrain Components in the Automotive Industry. Manufacturing Driving Circular Economy - Proceedings of the 18th Global Conference on Sustainable Manufacturing. editor / Holger Kohl ; Günther Seliger ; Franz Dietrich. Springer Science and Business Media Deutschland GmbH, 2023. pp. 410-418 (Lecture Notes in Mechanical Engineering).

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title = "Resource-Efficient Process Chains for the Production of High-Performance Powertrain Components in the Automotive Industry",

abstract = "This paper focuses on process chains for power train components of passenger cars and heavy duty vehicles. In the project “Powertrain 2025” particular attention is being paid to increase the resource efficiency of the manufacturing process chains and reduce energy demand during service life. In detail cylinder liners are equipped with an adapted geometry and topography which reduces friction losses. Process chains for chassis components are investigated and optimized in order to increase the resource efficiency during manufacturing, service life and maintenance. In addition, process chains for the manufacturing of drive shafts are adjusted. By eliminating hard machining, energy is saved and friction losses are reduced by laser machining of microstructures. Furthermore, micro dimples are applied in vane pumps, which leads to a tribological improvement and thus enhances their friction behaviour. Moreover, a system architecture for process planning is developed and ecologically optimized process parameters are calculated. For a final consideration, a calculation software is developed which enables to calculate the main energy consumption of the manufacturing processes and the carbon footprint for the expected service life. A weight reduction of the powertrain components of 4.5 kg per vehicle and a potential annual energy saving of 13,073 MWh is obtained.",

keywords = "Automotive Industry, Process Chains, Resource Efficiency",

author = "Berend Denkena and Benjamin Bergmann and Marcel Wichmann and Miriam Handrup and Daniel Katzsch and Philipp Pillkahn and Leon Reuter and Christopher Schmidt and Frederik Stelljes",

note = "Funding Information: In this paper process chains for machining and manufacturing cylinder liners, casting molds, drive shafts and vane pumps were investigated and optimized. A method for energy-efficient production planning and a virtual demonstrator for visualization and output of the results were developed. These enable the process chains to be planned, controlled and monitored in terms of resource efficiency. In the project “Powertrain 2025 -Energy-efficient process chains for the production of a friction-, weight-and service life-optimized powertrain”, funded by the Federal Ministry for Economic Affairs and Climate Action, significant energy-saving potential was identified both in the production phase and in the service life phase of powertrain components. The research results and measures presented resulted in a weight reduction of the powertrain components of 4.5 kg per vehicle and a potential annual energy saving of 13,073 MWh.; 18th Global Conference on Sustainable Manufacturing, GCSM 2022 ; Conference date: 05-10-2022 Through 07-10-2022",

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Denkena, B, Bergmann, B, Wichmann, M, Handrup, M, Katzsch, D, Pillkahn, P, Reuter, L, Schmidt, C & Stelljes, F 2023, Resource-Efficient Process Chains for the Production of High-Performance Powertrain Components in the Automotive Industry. in H Kohl, G Seliger & F Dietrich (eds), Manufacturing Driving Circular Economy - Proceedings of the 18th Global Conference on Sustainable Manufacturing. Lecture Notes in Mechanical Engineering, Springer Science and Business Media Deutschland GmbH, pp. 410-418, 18th Global Conference on Sustainable Manufacturing, GCSM 2022, Berlin, Germany, 5 Oct 2022. https://doi.org/10.1007/978-3-031-28839-5_46

Resource-Efficient Process Chains for the Production of High-Performance Powertrain Components in the Automotive Industry. / Denkena, Berend; Bergmann, Benjamin; Wichmann, Marcel et al.
Manufacturing Driving Circular Economy - Proceedings of the 18th Global Conference on Sustainable Manufacturing. ed. / Holger Kohl; Günther Seliger; Franz Dietrich. Springer Science and Business Media Deutschland GmbH, 2023. p. 410-418 (Lecture Notes in Mechanical Engineering).

Research output: Chapter in book/report/conference proceeding › Conference contribution › Research › peer review

TY - GEN

T1 - Resource-Efficient Process Chains for the Production of High-Performance Powertrain Components in the Automotive Industry

AU - Denkena, Berend

AU - Bergmann, Benjamin

AU - Wichmann, Marcel

AU - Handrup, Miriam

AU - Katzsch, Daniel

AU - Pillkahn, Philipp

AU - Reuter, Leon

AU - Schmidt, Christopher

AU - Stelljes, Frederik

N1 - Funding Information: In this paper process chains for machining and manufacturing cylinder liners, casting molds, drive shafts and vane pumps were investigated and optimized. A method for energy-efficient production planning and a virtual demonstrator for visualization and output of the results were developed. These enable the process chains to be planned, controlled and monitored in terms of resource efficiency. In the project “Powertrain 2025 -Energy-efficient process chains for the production of a friction-, weight-and service life-optimized powertrain”, funded by the Federal Ministry for Economic Affairs and Climate Action, significant energy-saving potential was identified both in the production phase and in the service life phase of powertrain components. The research results and measures presented resulted in a weight reduction of the powertrain components of 4.5 kg per vehicle and a potential annual energy saving of 13,073 MWh.

PY - 2023/4/26

Y1 - 2023/4/26

N2 - This paper focuses on process chains for power train components of passenger cars and heavy duty vehicles. In the project “Powertrain 2025” particular attention is being paid to increase the resource efficiency of the manufacturing process chains and reduce energy demand during service life. In detail cylinder liners are equipped with an adapted geometry and topography which reduces friction losses. Process chains for chassis components are investigated and optimized in order to increase the resource efficiency during manufacturing, service life and maintenance. In addition, process chains for the manufacturing of drive shafts are adjusted. By eliminating hard machining, energy is saved and friction losses are reduced by laser machining of microstructures. Furthermore, micro dimples are applied in vane pumps, which leads to a tribological improvement and thus enhances their friction behaviour. Moreover, a system architecture for process planning is developed and ecologically optimized process parameters are calculated. For a final consideration, a calculation software is developed which enables to calculate the main energy consumption of the manufacturing processes and the carbon footprint for the expected service life. A weight reduction of the powertrain components of 4.5 kg per vehicle and a potential annual energy saving of 13,073 MWh is obtained.

AB - This paper focuses on process chains for power train components of passenger cars and heavy duty vehicles. In the project “Powertrain 2025” particular attention is being paid to increase the resource efficiency of the manufacturing process chains and reduce energy demand during service life. In detail cylinder liners are equipped with an adapted geometry and topography which reduces friction losses. Process chains for chassis components are investigated and optimized in order to increase the resource efficiency during manufacturing, service life and maintenance. In addition, process chains for the manufacturing of drive shafts are adjusted. By eliminating hard machining, energy is saved and friction losses are reduced by laser machining of microstructures. Furthermore, micro dimples are applied in vane pumps, which leads to a tribological improvement and thus enhances their friction behaviour. Moreover, a system architecture for process planning is developed and ecologically optimized process parameters are calculated. For a final consideration, a calculation software is developed which enables to calculate the main energy consumption of the manufacturing processes and the carbon footprint for the expected service life. A weight reduction of the powertrain components of 4.5 kg per vehicle and a potential annual energy saving of 13,073 MWh is obtained.

KW - Automotive Industry

KW - Process Chains

KW - Resource Efficiency

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DO - 10.1007/978-3-031-28839-5_46

M3 - Conference contribution

AN - SCOPUS:85161406864

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BT - Manufacturing Driving Circular Economy - Proceedings of the 18th Global Conference on Sustainable Manufacturing

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PB - Springer Science and Business Media Deutschland GmbH

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Y2 - 5 October 2022 through 7 October 2022

ER -

Denkena B, Bergmann B, Wichmann M, Handrup M, Katzsch D, Pillkahn P et al. Resource-Efficient Process Chains for the Production of High-Performance Powertrain Components in the Automotive Industry. In Kohl H, Seliger G, Dietrich F, editors, Manufacturing Driving Circular Economy - Proceedings of the 18th Global Conference on Sustainable Manufacturing. Springer Science and Business Media Deutschland GmbH. 2023. p. 410-418. (Lecture Notes in Mechanical Engineering). doi: 10.1007/978-3-031-28839-5_46

Resource-Efficient Process Chains for the Production of High-Performance Powertrain Components in the Automotive Industry

Abstract

Publication series

Conference

UN Sustainable Development Goals (SDGs)

Keywords

ASJC Scopus subject areas

Access to Document

Other files and links

Antriebsstrang 2025: Verbundvorhaben: Energieeffiziente Prozessketten zur Herstellung eines reibungs-, gewichts- und lebensdaueroptimierten Antriebsstrangs; Teilvorhaben: Wissenschaftliche Entwicklung von Prozessen und Methoden zur energieeffizienten Fertigung von Antriebsstrangkomponenten

Cite this

Resource-Efficient Process Chains for the Production of High-Performance Powertrain Components in the Automotive Industry

Abstract

Publication series

Conference

UN Sustainable Development Goals (SDGs)

Keywords

ASJC Scopus subject areas

Access to Document

Other files and links

Projects

Antriebsstrang 2025: Verbundvorhaben: Energieeffiziente Prozessketten zur Herstellung eines reibungs-, gewichts- und lebensdaueroptimierten Antriebsstrangs; Teilvorhaben: Wissenschaftliche Entwicklung von Prozessen und Methoden zur energieeffizienten Fertigung von Antriebsstrangkomponenten

Cite this