Design

Measures and Incentives to Reduce CO2-Emissions

Measures and Incentives to Reduce CO2-Emissions

How Small Carriers and Their Shippers Can Work Towards More Climate-Friendly Road Freight Transport
Moritz Petersen, Ramón van Almsick
Accelerating climate change drives companies to reduce their greenhouse gas emissions. Road freight transport accounts for around 6 % of global CO2 emissions. However, high growth rates, the dependence on fossil fuels, and the high fragmentation of the market make the decarbonization of road freight transport challenging. Based on survey results, this paper elaborates how small road carriers, together with their clients, can contribute to achieving global climate targets by implementing appropriate measures and incentives.
Industrie 4.0 Management | Volume 38 | 2022 | Edition 1 | Pages 41-44 | DOI 10.30844/I40M_22-1_41-44
Electrical and Hydrogen Microgrid

Electrical and Hydrogen Microgrid

Energy Control of a Self-Sufficient Supply System Based on a Combined Electrical and Hydrogen Distribution Grid
David Salomon Stephan, Uwe Werner, Carsten Fichter
The main goal of assembling a self-sufficient microgrid is to integrate all technical equipment into an autonomous energy supply system as a virtual power plant (VPP). The system integration focuses on the power electronic devices and the combination of gas and electrical supply chains. The developed microgrid structure is fed from renewable energy systems (green hydrogen), the electrical grid and the H2 gas grid with a liquid or gaseous energy source. In comparison to an island grid, the microgrid can be operated in parallel mode with the common public grid. The associated challenges of transient energy flows and the holistic view of a regulated microgrid based on an electrical grid and an H2 gas network are part of this article.
Industrie 4.0 Management | Volume 38 | 2022 | Edition 1 | Pages 28-32
Sustainable Recycling of EV Traction Batteries

Sustainable Recycling of EV Traction Batteries

Christoph Herrmann, Mark Mennenga, Alexander Kaluza, Bernd Friedrich, Elinor Rombach, Alexander Michaelis, Mareike Partsch, Constantin Wolf
In the course of the shift to electromobility, the use of battery cells as energy storage is facing exponential growth. The goal in research and industry is to design the entire life cycle of these battery cells in the light of global sustainability goals and to ensure the necessary supply of raw materials. In this context, the establishment of efficient recycling technologies plays a central role. In particular, there is a need for research into the further development of process routes according to technological, ecological, economic and social criteria. The competence cluster Recycling & Green Battery (greenBatt) addresses these challenges in 15 research projects. This article presents overarching solution approaches and project highlights.
Industrie 4.0 Management | Volume 38 | 2022 | Edition 1 | Pages 12-16 | DOI 10.30844/I40M_22-1_12-16
Off-Peak Delivery: An Opportunity for Climate-Friendly Urban Logistics

Off-Peak Delivery: An Opportunity for Climate-Friendly Urban Logistics

Sebastian Stütz, Daniela Kirsch
Urban logistics has to change to become more silent and eco-friendlier. Off-peak delivery is regarded as an effective measure to cut carbon emissions. Implementing this concept will require the deployment of electric trucks to comply with noise regulations. This article provides an overview of current research themes in this field and uses McKinnon’s “Analytical framework for green logistics”to illustrate off-peak delivery as a concept, its benefits and limitations as well as the key requirements to make this concept work.
Industrie 4.0 Management | Volume 38 | 2022 | Edition 1 | Pages 48-52
Ready for Industrie 4.0?

Ready for Industrie 4.0?

Prerequisites for successful digitalization in production
Günther Schuh ORCID Icon, Andreas Gützlaff, Matthias Schmidhuber, Judith Fulterer, Max-Ferdinand Stroh, Jan Hicking
Despite a strong media presence and proven potential benefits, Industrie 4.0 is not yet established in many companies. Industry 4.0 projects often remain in a prototype status and do not deliver long-term added value. The solution is an integrated digital system landscape consisting of a connected, digital infrastructure and a business organization oriented towards Industrie 4.0. Through a four-step approach, this paper presents the foundations that need to be created to enable scalable solutions and realize long-term benefits.
Industrie 4.0 Management | Volume 38 | 2022 | Edition 1 | Pages 61-65
Requirements for the Use of Digitization and AI

Requirements for the Use of Digitization and AI

Applications for increasing energy efficiency
Dennis Bode, Henry Ekwaro-Osire, Klaus-Dieter Thoben ORCID Icon
Innovative digital and AI solutions for more energy-efficient production can decisively contribute to the environmental impact and competitiveness of companies, especially in the manufacturing industry. Requirements for the functionality and implementation of these solutions are complex and diverse; multiple stakeholders need to be addressed when eliciting requirements and various technology and business aspects have to be considered. This article presents a procedure for requirements elicitation for energy efficiency digitalization and AI projects.
Industrie 4.0 Management | Volume 38 | 2022 | Edition 1 | Pages 17-22 | DOI 10.30844/I40M_22-1_17-22
Biomimetics in Holistic Production Systems

Biomimetics in Holistic Production Systems

Biomimetic Methods to Support Process Standardization in SMEs
Annika Lange ORCID Icon, Patrick Gering, Nicole Oertwig ORCID Icon, Thomas Knothe ORCID Icon
Holistic production systems (HPS) do not only produce positive effects in large companies - they also have an impact on small and medium-sized enterprises (SMEs), such as improved adherence to delivery dates. However, HPS cannot be copied from large companies to SMEs due to different initial situations and circumstances. The introduction of HPS means a high effort for SMEs. In this paper, an approach is presented on how a bionic principle can make HPS less costly and at the same time more effective for SMEs.
Industrie 4.0 Management | Volume 38 | 2022 | Edition 1 | Pages 57-60
Assistance Systems Through Natural Language Processing

Assistance Systems Through Natural Language Processing

Implementation strategies for the shop floor
Marvin Müller, Joachim Metternich
The future of shop floor management (SFM) lies in its digitization. The visualization of key performance indicators is already supported by various providers or set up by companies themselves to save time. But particularly valuable in SFM is the sustainable problem solving, which contains the knowledge of the employees in text. Therefore, approaches from Natural Language Processing (NLP) are applied to these text data to realize assistance functions. This article provides situation-specific implementation strategies.
Industrie 4.0 Management | Volume 37 | 2021 | Edition 6 | Pages 11-14 | DOI 10.30844/I40M_21-6_S11-14
Industry 5.0

Industry 5.0

The European Commission on the trail of the next industrial revolution?
David Bendig, Kevin Lau, Julian Schulte, Stefan Endriß
Managers are still facing significant challenges in implementing Industry 4.0 technologies and many companies have not gone beyond their initial Industry 4.0 lighthouse project to date. In the midst of this ongoing transformation, the European Commission published a white paper in January 2021 dealing with the “Industry 5.0 concept”. This paper investigates the term “Industry 5.0” with regard to the contribution of the European Commission and illustrates the connection with current Industry 4.0 initiatives.
Industrie 4.0 Management | Volume 37 | 2021 | Edition 6 | Pages 20-22 | DOI 10.30844/I40M_21-6_S20-22
Socio-Technical Learning System at the Workplace

Socio-Technical Learning System at the Workplace

Enhancement of Employee Competence through Socio-Technical Assistance Systems for Flexible Use at the Workplace
Holger Dander ORCID Icon, Patrick Adler, Gerd Witt
The complexity of manual activities in different areas of a company is increasing due to smaller batch sizes, higher product variants and shorter product life cycles. The balanced provision of information ensures shorter training times, higher acceptance among employees and can be used directly at the workplace. For system implementation, organizational factors must also be considered in accordance of a socio-technical system design.
Industrie 4.0 Management | Volume 37 | 2021 | Edition 6 | Pages 47-51 | DOI 10.30844/I40M_21-6_S47-51
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