Gößling-Reisemann S. (2006) Entropy as a Measure for Resource Consumption — Application to Primary and Secondary Copper Production. In: von Gleich A., Ayres R.U., Gößling-Reisemann S. (eds) Sustainable Metals Management.
2014-01-02
Stefan Gößling-Reisemann is Professor for Resilient Energy Systems at the University of Bremen, in Bremen, Germany. His research focuses on industrial ecology, its methods, and the resilience of energy systems. Dr. Stefan Gößling-Reisemann, Fachgebiet Technikgestaltung und Technologieentwicklung, Fachbereich Produktionstechnik der Universität Bremen. S. Gößling-Reisemann What Is Missing in Life Cycle Assessment, Materials Flow Analysis, and Other ToolsOne of the main fields of research within industrial ecology is the measurement of the metabolism of regions, industrial systems, production processes, or product systems. Gößling-Reisemann S. (2006) Entropy as a Measure for Resource Consumption — Application to Primary and Secondary Copper Production. In: von Gleich A., Ayres R.U., Gößling-Reisemann S. (eds) Sustainable Metals Management. Analysis and minimization of resource consumption is an essential aspect of sustainability.
404 Till Zimmermann and Stefan Gößling-Reisemann / Energy Procedia 20 ( 2012 ) 402 – 413 The result is a material flow model of the assessed 2.3MW converter with a parameterization that Stefan Gößling‐Reisemann is an assistant professor at the University of Bremen, Faculty of Production Engineering, in Bremen, Germany. Stefan Gößling-Reisemann. Pages 195-235. Dematerialization of the Metals Turnover.
Utgivare Arnim von Gleich och Stefan Gößling-Reisemann. Publicerad i Vieweg förlag i Wiesbaden. Första upplagan av bandet med 382 sidor, som lärobok för
Köp Sustainable Metals Management av Arnim Von Gleich, Robert U Ayres, Stefan Goessling-Reisemann på Bokus.com. Traueranzeigen von Stefan Gößling-Reisemann | Trauer & Gedenken bild. Sustainable Business: What is it and why should I care?
Till Zimmermann and Stefan Gößling-Reisemann 12. Network Analysis of Industrial Ecosystems Junming Zhu and Lei Shi 13. Linking Environmental and Economic Frameworks to Model Technology Transitions Randall Jackson, Christa Court and Hodjat Gahdimi 14. System Dynamics for Environmental Application Krystyna Stave 15.
Thereby it retained a strong focus on stability and equilibrium conditions. This higher transfer potential can be … BibTeX @MISC{Zimmermann13articlematerial, author = {Till Zimmermann and Max Rehberger and Stefan Gößling-reisemann}, title = {Article Material Flows Resulting from Large Scale Deployment of Wind Energy in Germany}, year = {2013}} Chair: Stefan Gößling-Reisemann Climate Shocks and Patterns of Change of City-regions in Asia: Variations in Historical Resilience Adriana Kocornik-Mina System in High Mountain Ecosystems: A Case Illustra-Analyzing Impacts of Long and Short Term Disasters on Vulnerable Occupations.
IJTSRD30436
Arnim von Gleich, Robert U. Ayres, Stefan Gößling-Reisemann. Springer Science & Business Media, Jan 16, 2007 - Technology & Engineering - 610 pages. 0 Reviews. Special Issue "Resilience of Energy Systems",January- May 2015 .
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Obituary: Stefan Gossling-Reisemann.
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2. Resilienz als Leitkonzept – Vulnerabilität als analytische Kategorie. 13. Arnim von Gleich, Stefan Gößling-Reisemann, Sönke Stührmann, Peer Woizeschke,
Abfall Obituary: Stefan Gossling-Reisemann. We mourn our long time colleague, Stefan Gößling-Reisemann, who has been a Professor at the University of Bremen, a member of the artec Research Center Sustainability in Bremen since 2003, editor for book reviews for the Journal of Industrial Ecology, and a valued part of the industrial ecology community.
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2006-06-01
Studies Diffusion of Innovations, Technological Innovation, and Design Innovation. A new method is presented to quantify the potential of a system to concentrate or dilute substances. The approach is based on a comprehensive material flow analysis and Shannon's statistical entropy function that is transformed by a three-step procedure. The result is a new function that can be applied to any defined system with known mass-flows and substance concentrations. In combination By Till Zimmermann and Stefan Gößling-Reisemann.
Obituary: Stefan Gossling-Reisemann. We mourn our long time colleague, Stefan Gößling-Reisemann, who has been a Professor at the University of Bremen, a member of the artec Research Center Sustainability in Bremen since 2003, editor for book reviews for the Journal of Industrial Ecology, and a valued part of the industrial ecology community.
Entropy production and resource consumption in life cycle assessments Stefan Gößling-Reisemann 12. Exergy and material flow in industrial and ecological systems Nandan Ukidwe and Bhavik R. Bakshi 13. Materials flow analysis and input-output analysis: a synthesis Shinichiro Nakamura Part IV. Economic, Social Industrial, Eco Systems: 14. Mariela Tapia, Max Spengler, Stefan Gößling-Reisemann, Digitalization of Power Systems – How Vulnerable Is the System and What Are the Strategies to Increase the System’s Resilience?, Smart Cities/Smart Regions – Technische, wirtschaftliche und gesellschaftliche Innovationen, 10.1007/978-3-658-25210-6, (133-147), (2019). BibTeX @MISC{Gößling-reisemann_electricand, author = {Stefan Gößling-reisemann and Markus Knak and Björn Schulz}, title = {electric and}, year = {}} • Dr. Stefan Gößling-Reisemann, University of Bremen • Dr. Jakob Wachmuth, University of Bremen They have done a tremendous job in getting all contributions in time and in the right order and they chaired most of the sessions as well.
While the energy produced in the use phase of wind energy converters (WEC) is as Recycling Potentials of Critical Metals-Analyzing Secondary Flows from Selected Applications Stefan Gößling‐Reisemann (Division of Technological Design and Development, Faculty of Production Engineering, University of Bremen, Bremen, Germany) Management of Environmental Quality. ISSN: 1477-7835. Publication date: 13 June 2008. Abstract. Purpose – The paper (Till Zimmermann, Stefan Gößling-Reisemann) Uncovering the end uses of the rare earth elements (Xiaoyue Du, T.E. Graedel) Sustainable governance of scarce metals: The case of lithium (Timothy Prior, Patrick A. Wäger, Anna Stamp, Rolf Widmer, Damien Giurco) The end of cheap uranium (Michael Dittmar) Sustainable use of phosphorus: A finite Chair: Heidi Pethybridge Stefan Koenigstein (1,3)*, Hauke Reuter (2), Hans-Otto Pörtner (3), Stefan Gößling-Reisemann (1). 1 Department of Resilient Energy Systems / Sustainability Research Centre (artec), University of Bremen, Bremen, Germany 2 Department of Ecological Theory and Modelling, Leibniz Center for Tropical Marine Ecology (ZMT), Bremen, Germany "Taking a systems view can help to analyse socio-economic impacts of ocean acidification and find ways to mitigate them and adapt to them", Dr. Stefan Gößling-Reisemann, researcher at the 2014-02-12 Stefan Gößling-Reisemann Professor for Resilient Energy Systems @ University of Bremen Bremen und Umgebung, Deutschland Forschung Stefan Gößling-Reisemann, University of Bremen, Production Engineering Department, Faculty Member.