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It has not yet been possible to achieve the desired aim of decoupling economic growth from global material demand. Small and medium sized enterprises (SMEs) represent the backbone of most industrialized economies. Although material efficiency is of vital importance for many SMEs, few of them actually treat it as their top priority. There is a cornucopia of tools and methods available which can be used for material efficiency purposes. These, however, have gained little ground in the SME-field. This work deals with the enabling factors for material efficiency improvements in manufacturing SMEs and projections towards aspects of supply chain and circular economy. A multi-disciplinary decoupling approach for manufacturing SMEs and an implementation roadmap for further practical development are proposed. The approach combines appropriate complexity of technology and socio-economic considerations. It enables a connection of existing methods and the implementation of established information technologies.
5-hydroxymethyl-furfural (HMF) and furfural are interesting as potential platform chemicals for a bio-based chemical production economy. Within the scope of this work, the process routes under technical development for the production of these platform chemicals were investigated. For two selected processes, the material and energy flows, as well as the carbon footprint, were examined in detail. The possible production process optimizations, further development potentials, and the research demand against the background of the reduction of the primary energy expenditure were worked out.
In order to decouple economic growth from global material consumption it is necessary to implement material efficiency strategies at the level of single enterprises and their supply chains, and to implement circular economy aspects. Manufacturing firms face multiple implementation challenges like cost limitations, competition, innovation and stakeholder pressure, and supplier and customer relationships, among others. Taking as an example a case of a medium-sized manufacturing company, opportunities to realise material efficiency improvements within the company borders - on the supply chain and by using circular economy measures - are assessed. Deterministic calculations and simulations, performed for the supply chain of this company, show that measures to increase material efficiency in the supply chain are important. However, they need to be complemented by efforts to return waste and used products to the economic cycle, which requires rethinking the traditional linear economic system.
It has not yet been possible to achieve the desired aim of decoupling economic growth from global material demand. Small and medium sized enterprises (SMEs) represent the backbone of most industrialized economies. Although material efficiency is of vital importance for many SMEs, few of them actually treat it as their top priority. There is a cornucopia of tools and methods available, which can be used for material efficiency purposes. These, however, have gained little groud in the SME-field. This work deals with the enabling factors for material efficiency improvements in manufacturing SMEs and projections towards aspects of supply chain and circular economy. A multi-disciplinary decoupling approach for manufacturing SMEs and an implementation roadmap for further practical development are proposed. The approach combines appropriate complexity of technology and socio-economic considerations. It enables a connection to existing methods and the implementation of established information technologies.
Up to now biorefinery concepts can hardly compete with the conventional production of fossil-based chemicals. On one hand, conventional chemical production has been optimised over many decades in terms of energy, yield and costs. Biorefineries, on the other hand, do not have the benefit of long-term experience and therefore have a huge potential for optimisation. This study deals with the economic evaluation of a newly developed biorefinery concept based on superheated steam (SHS) torrefaction of biomass residues with recovery of valuable platform chemicals. Two variants of the biorefinery were economically investigated. One variant supplies various platform chemicals and torrefied biomass. The second variant supplies thermal energy for external consumers in addition to platform chemicals. The results show that both variants can be operated profitably if the focus of the platform chemicals produced is on high quality and thus on the higher-priced segment. The economic analysis gives clear indications of the most important financial influencing parameters. The economic impact of integration into existing industrial structures is positive. With the analysis, a viable business model can be developed. Based on the results of the present study, an open-innovation platform is recommended for the further development and commercialisation of the novel biorefinery.
Within the last decade, research on torrefaction has gained increasing attention due to its ability to improve the physical properties and chemical composition of biomass residues for further energetic utilisation. While most of the research works focused on improving the energy density of the solid fraction to offer an ecological alternative to coal for energy applications, little attention was paid to the valorisation of the condensable gases as platform chemicals and its ecological relevance when compared to conventional production processes. Therefore, the present study focuses on the ecological evaluation of an innovative biorefinery concept that includes superheated steam drying and the torrefaction of biomass residues at ambient pressure, the recovery of volatiles and the valorisation/separation of several valuable platform chemicals. For a reference case and an alternative system design scenario, the ecological footprint was assessed, considering the use of different biomass residues. The results show that the newly developed process can compete with established bio-based and conventional production processes for furfural, 5-HMF and acetic acid in terms of the assessed environmental performance indicators. The requirements for further research on the synthesis of other promising platform chemicals and the necessary economic evaluation of the process were elaborated.
Eine zukunftsfähige Ausrichtung der betrieblichen Abläufe nach den Prinzipien des nachhaltigen Wirtschaftens erhöht die Wettbewerbsfähigkeit, die Innovationskraft und die Glaubwürdigkeit des Unternehmens bei allen Interessengruppen. Zudem zeigt die Praxis, dass Unternehmen damit nicht nur ökologische und soziale Aspekte angehen können, sondern auch ökonomisch besser aufgestellt sind, zum Beispiel durch Einsparungen an Ressourcen, einer höheren Akzeptanz im Markt und in der Gesellschaft oder einer besseren Mitarbeitermotivation. In der VDI 4070 Blatt 1 wurde eine Handlungsanleitung gegeben und eine strukturierte Vorgehensweise beschrieben, um Betriebe systematisch an ein nachhaltiges Wirtschaften heranzuführen. In Ergänzung dazu werden in Blatt 2 beispielhafte Methoden sowie bewährte und innovative Instrumente vorgestellt und praktische Anwendungshilfen und Beispiele aufgezeigt. Die Richtlinie richtet sich an Behörden, Beratungsunternehmen, kleine und mittelständische Unternehmen.
Der Sondermaschinenbau ist durch eine hohe Variantenvielfalt und komplexe Materialflüsse charakterisiert (Reinhart, Bredow & Pohl, 2009, S. 131). Die vorliegende Publikation stellt die im Zuge eines Praxisprojekts angewendeten Vorgehensweisen zur Materialflussoptimierung im Sondermaschinenbau vor. Dabei werden Erfahrungswerte und Hindernisse herausgearbeitet.
Das Thema Energieeffizienz ist speziell durch das neue Energiedienstleistungsgesetz in den Vordergrund gerückt. Dabei wird oft übersehen, dass der größte Kostenblock im verarbeitenden Gewerbe Ausgaben für Materialien darstellen. Um Kostensenkungspotenziale zu nutzen und die Wettbewerbsfähigkeit zu erhöhen, müssen Unternehmen daher konsequent auch alle Materialströme betrachten. Dabei stellt sich die Frage, wie ein Ressourceneffizienzprojekt strategisch und operativ angegangen werden kann. Das Steinbeis-Transferzentrum Energie und Umweltverfahrenstechnik, Eco-Management zeigt, welche Möglichkeiten im Bereich Ressourceneffizienz im produzierenden Gewerbe bestehen und dass es sich lohnt, hier genauer hinzusehen.
Energy efficiency is an important issue, especially following the introduction of new energy services legislation in Germany. One thing that is often overlooked is the biggest cost driver in the processing industry: material expenditures. To make full use of any potential cost savings and raise competitiveness, companies have to look very carefully at all material flows. This raises the important question of how to organize resource efficiency projects strategically and in terms of operational implementation. The Steinbeis Transfer Center for Energy and Environmental Process Technology, Eco-Management is demonstrating the different options open to manufacturing companies when it comes to resource efficiency – showing that it really is worth subjecting the issue to closer scrutiny.